<?xml version="1.0"?>
<std:node name="Generativeparameters" type="Generativeparameters" xmlns:std="http://www.dsweb.com/std">
<!-- Enums definition...DO NOT TOUCH-->
   <std:enumdef name="FilletRep">
      <std:strval>None</std:strval>

      <std:strval>Boundaries</std:strval>

      <std:strval>Symbolic</std:strval>

      <std:strval>OriginalEdges</std:strval>

      <std:strval>ProjectedOriginalEdges</std:strval>
   </std:enumdef>

   <std:enumdef name="DraftingSectionPartialSectionEdge">
       <std:strval>Standard</std:strval>
       <std:strval>Wavy</std:strval>
   </std:enumdef>
      
   <std:enumdef name="YesNo">
      <std:strval>No</std:strval>

      <std:strval>Yes</std:strval>
   </std:enumdef>

   <std:typedef name="DraftingOptions">
      <std:intval name="HiddenLines">0</std:intval>

      <std:intval name="CutInSection">1</std:intval>

      <std:intval name="UseWhenProjected">1</std:intval>
   </std:typedef>

   <std:enumdef name="OpeningCenterlines">
      <std:strval>No centerlines</std:strval>

      <std:strval>Long centerlines</std:strval>

      <std:strval>Short centerlines</std:strval>
   </std:enumdef>

   <std:enumdef name="OblongOpeningCenterlines">
      <std:strval>Single centerlines</std:strval>

      <std:strval>Double centerlines</std:strval>
   </std:enumdef>

   <std:enumdef name="MaterialExtrusion">
      <std:strval>None</std:strval>

      <std:strval>Tick mark (true width)</std:strval>

      <std:strval>Throw orientation (symbolic)</std:strval>

      <std:strval>Tick mark and throw orientation</std:strval>
   </std:enumdef>

   <std:enumdef name="ElecGraphicRepresentation">
      <std:strval name="ElecGraphicRepresentation">DoubleLine</std:strval>

      <std:strval name="ElecGraphicRepresentation">SingleLine</std:strval>
   </std:enumdef>

   <std:enumdef name="ElecGraphicReplacement">
      <std:strval name="ElecGraphicReplacement">3Dprojection</std:strval>

      <std:strval name="ElecGraphicReplacement">2Ddetail</std:strval>
   </std:enumdef>

   <std:enumdef name="ElecGraphicReplacementSupport">
      <std:strval name="ElecGraphicReplacementSupport">3Dprojection</std:strval>

      <std:strval name="ElecGraphicReplacementSupport">2Ddetail</std:strval>

      <std:strval name="ElecGraphicReplacementSupport">3DprojectionAnd2Ddetail</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecSorting">
    <std:strval name="ElecSorting">Ascending</std:strval>

    <std:strval name="ElecSorting">Descending</std:strval>
  </std:enumdef>
  <!-- #      New enumdef                -->

  <std:enumdef name="ElecPositionInInformationTable">
    <std:strval>Top</std:strval>
    <std:strval>Bottom</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecConnectorAttributes">
    <std:strval name="ElecConnectorAttributes" >NotDefine</std:strval>
    <std:strval name="ElecConnectorAttributes" >WireGroupName</std:strval>
    <std:strval name="ElecConnectorAttributes" >InstanceName</std:strval>
    <std:strval name="ElecConnectorAttributes" >PartNumber</std:strval>
    <std:strval name="ElecConnectorAttributes" >Diameter</std:strval>
    <std:strval name="ElecConnectorAttributes" >Mass</std:strval>
    <std:strval name="ElecConnectorAttributes" >BendRadius</std:strval>
    <std:strval name="ElecConnectorAttributes" >Length</std:strval>
    <std:strval name="ElecConnectorAttributes" >Color</std:strval>
    <std:strval name="ElecConnectorAttributes" >SeparationCode</std:strval>
    <std:strval name="ElecConnectorAttributes" >SignalID</std:strval>
    <std:strval name="ElecConnectorAttributes" >SubType</std:strval>
    <std:strval name="ElecConnectorAttributes" >FromConnectionPoint</std:strval>
    <std:strval name="ElecConnectorAttributes" >FromDevice</std:strval>
    <std:strval name="ElecConnectorAttributes" >ToConnectionPoint</std:strval>
    <std:strval name="ElecConnectorAttributes" >ToDevice</std:strval>
    <std:strval name="ElecConnectorAttributes" >FromPartNumberofContactinCavity</std:strval>
    <std:strval name="ElecConnectorAttributes" >ToPartNumberofContactinCavity</std:strval>
    <std:strval name="ElecConnectorAttributes" >Catalog</std:strval>
    <std:strval name="ElecConnectorAttributes" >FullyConnected</std:strval>
    <std:strval name="ElecConnectorAttributes" >NetworkConnexity</std:strval>
    <std:strval name="ElecConnectorAttributes" >IsRouted</std:strval>
    <std:strval name="ElecConnectorAttributes" >OutSideDiameter</std:strval>
    <std:strval name="ElecConnectorAttributes" >SectionArea</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecSplitOption">
    <std:strval>Horizontal</std:strval>
    <std:strval>Vertical</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecReportPosition">
    <std:strval>BottomCenter</std:strval>
    <std:strval>BottomLeft</std:strval>
    <std:strval>BottomRight</std:strval>
    <std:strval>TopCenter</std:strval>
    <std:strval>TopLeft</std:strval>
    <std:strval>TopRight</std:strval>
    <std:strval>Center</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecSheetLocation">
    <std:strval>MainView</std:strval>
    <std:strval>NewSheet</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecTextOrientation">
    <std:strval name="ElecTextOrientation" >TextTemplateDefault</std:strval>
    <std:strval name="ElecTextOrientation" >ParallelToBranch</std:strval>
    <std:strval name="ElecTextOrientation" >PerpendicularToBranch</std:strval>
  </std:enumdef>

  <std:enumdef name="ElecAlignment">
    <std:strval name="ElecAlignment">Left</std:strval>
    <std:strval name="ElecAlignment">Center</std:strval>
    <std:strval name="ElecAlignment">Right</std:strval>
  </std:enumdef>

  <std:enumdef name="LeaderPosition">
    <std:strval>ProtectionEnd</std:strval>
    <std:strval>ProtectionCenter</std:strval>
  </std:enumdef>

  <!-- #     End of new enumdef and typedef   -->   

    <std:enumdef name="PipGraphicRepresentation">
      <std:strval name="PipGraphicRepresentation">DoubleLine</std:strval>

      <std:strval name="PipGraphicRepresentation">SingleLine</std:strval>

      <std:strval name="PipGraphicRepresentation">NoProjection</std:strval>
    </std:enumdef>

	<std:enumdef name="PipInsulationGraphicRepresentation">
      <std:strval name="PipInsulationGraphicRepresentation">DoubleLine</std:strval>

      <std:strval name="PipInsulationGraphicRepresentation">SingleLine</std:strval>
	  
      <std:strval name="PipInsulationGraphicRepresentation">NoProjection</std:strval>
    </std:enumdef>

	<std:enumdef name="PipPartInsuGraphicRepresentation">
      <std:strval name="PipPartInsuGraphicRepresentation">3Dprojection</std:strval>

      <std:strval name="PipPartInsuGraphicRepresentation">NoProjection</std:strval>
    </std:enumdef>

   <std:enumdef name="PipGraphicReplacement">
      <std:strval name="PipGraphicReplacement">3Dprojection</std:strval>	

	  <std:strval name="PipGraphicReplacement">2DSymbol</std:strval>

      <std:strval name="PipGraphicReplacement">NoProjection</std:strval>
   </std:enumdef>

  <std:enumdef name="HVACGraphicRepresentation">
    <std:strval name="HVACGraphicRepresentation">DoubleLine</std:strval>

    <std:strval name="HVACGraphicRepresentation">SingleLine</std:strval>

    <std:strval name="HVACGraphicRepresentation">NoProjection</std:strval>
  </std:enumdef>

  <std:enumdef name="HVACInsulationGraphicRepresentation">
    <std:strval name="HVACInsulationGraphicRepresentation">DoubleLine</std:strval>

    <std:strval name="HVACInsulationGraphicRepresentation">SingleLine</std:strval>

    <std:strval name="HVACInsulationGraphicRepresentation">NoProjection</std:strval>
  </std:enumdef>

  <std:enumdef name="HVACPartInsuGraphicRepresentation">
    <std:strval name="HVACPartInsuGraphicRepresentation">3Dprojection</std:strval>

    <std:strval name="HVACPartInsuGraphicRepresentation">NoProjection</std:strval>
  </std:enumdef>
   <std:enumdef name="YesNoStandard">
    <std:strval name="YesNoStandard" >No</std:strval>
    <std:strval name="YesNoStandard" >Yes</std:strval>
	<std:strval name="YesNoStandard" >Standard</std:strval>
  </std:enumdef>
  <std:enumdef name="HVACGraphicReplacement">
    <std:strval name="HVACGraphicReplacement">3Dprojection</std:strval>

    <std:strval name="HVACGraphicReplacement">2DSymbol</std:strval>

    <std:strval name="HVACGraphicReplacement">NoProjection</std:strval>
  </std:enumdef>
  
  <std:enumdef name="RCWGraphicReplacement">
    <std:strval name="RCWGraphicReplacement">3Dprojection</std:strval>

    <std:strval name="RCWGraphicReplacement">2DSymbol</std:strval>

    <std:strval name="RCWGraphicReplacement">NoProjection</std:strval>
  </std:enumdef>
  
    <std:enumdef name="RCWTrayGraphicRepresentation">
    <std:strval name="RCWTrayGraphicRepresentation">DoubleLine</std:strval>

    <std:strval name="RCWTrayGraphicRepresentation">SingleLine</std:strval>

    <std:strval name="RCWTrayGraphicRepresentation">NoProjection</std:strval>
  </std:enumdef>
  

  <std:enumdef name="SheetMetalAngleType">
      <std:strval>Internal</std:strval>

      <std:strval>External</std:strval>
   </std:enumdef>

  <std:enumdef name="framespacingtype">
    <std:strval name="framespacingtype">Distance</std:strval>
    <std:strval name="framespacingtype">Space</std:strval>
  </std:enumdef>

  <std:enumdef name="frametextposition">
    <std:strval name="frametextposition">Above</std:strval>
    <std:strval name="frametextposition">Below</std:strval>
  </std:enumdef>

  <std:enumdef name="framelineposition">
    <std:strval name="framelineposition">Centered</std:strval>
    <std:strval name="framelineposition">AboveTheLine</std:strval>
    <std:strval name="framelineposition">BelowTheLine</std:strval>
  </std:enumdef>

  <std:enumdef name="Building_ViewMode">
    <std:strval name="Building_ViewMode">Architectural</std:strval>
    <std:strval name="Building_ViewMode">Structural</std:strval>
  </std:enumdef>

<!-- End of Enum definition-->
   <std:node name="Drafting">
<!--   Drafting application parameters-->
      <std:node name="Generate">
         <std:node name="AxisLines">
            <std:enumval name="YesNo">Yes</std:enumval>
         </std:node>

         <std:node name="CenterLines">
            <std:enumval name="YesNo">Yes</std:enumval>
         </std:node>

         <std:node name="Fillets">
            <std:enumval name="FilletRep">Boundaries</std:enumval>
         </std:node>

         <std:node name="HiddenLines">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="AutoHide">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Threads">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="3DPoints">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Wireframe">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Using3Dspec">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Welds">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="WeldSections">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Patterns">
            <std:enumval name="YesNo">Yes</std:enumval>
         </std:node>

        <std:node name="SmoothEdges">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
      </std:node>

      <std:node name="ViewDressup">
         <std:node name="Operators">
            <std:node name="Section">
               <std:node name="Visible">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>4</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>

               <std:node name="PartialSectionEdge">
                  <std:enumval name="DraftingSectionPartialSectionEdge">Standard</std:enumval>
               </std:node>
			   
               <std:node name="SkinSection">
                  <std:node name="Color">
                     <std:colorval>0 0 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>1</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="SolidSection">
                  <std:node name="Color">
                     <std:colorval>0 0 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>1</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>
            </std:node>

            <std:node name="Detail">
               <std:node name="Visible">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>4</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>
            </std:node>

            <std:node name="Break">
               <std:node name="Visible">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype" minval="1" maxval="8">
                  <std:intval>4</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>2</std:intval>
               </std:node>
			   
	       <std:node name="SingleZigZag">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>

            <std:node name="Breakout">
               <std:node name="Visible">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>8</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>2</std:intval>
               </std:node>
            </std:node>
	    
	    <std:node name="3DClipping">
               <std:node name="Visible">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>8</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>2</std:intval>
               </std:node>
            </std:node>

         </std:node>

<!-- fin du noeud Operators -->
         <std:node name="3DInheritance">
            <std:node name="Wireframe">
               <std:node name="Color">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Linetype">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Thickness">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Layer">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>

            <std:node name="Solid">
               <std:node name="Color">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Linetype">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Thickness">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Layer">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>

            <std:node name="3DPoints">
               <std:node name="Color">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Symbol">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Name">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="Layer">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>
         </std:node>

         <std:node name="GeneratedGeometry">
            <std:node name="VividEdges">
               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>1</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>2</std:intval>
               </std:node>
            </std:node>

            <std:node name="HiddenEdges">
               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>3</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>
            </std:node>

	  <std:node name="WavyEdges">
               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>1</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>
          </std:node>			
			
            <std:node name="Fillets">
               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>1</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>
            </std:node>

            <std:node name="Wireframe">
               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>1</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>
            </std:node>

            <std:node name="3DPoints">
               <std:node name="Symbol">
                  <std:intval>1</std:intval>
               </std:node>
            </std:node>
         </std:node>
      </std:node>

<!--      End of Drafting parameters-->
   </std:node>

<!-- ******************************************************************* -->
<!-- *         START APPLICATION - COMMON 3D MODELING                  * -->
<!-- ******************************************************************* -->
<!-- * This section is a general section dedicated to all applications.* -->
<!-- * It is supposed to contain parameters that are cross-application * -->
<!-- * (used by multiple 3D applications).                             * -->
<!-- *                                                                 * -->
<!-- * It is better to centralize the cross-application parameters in  * -->
<!-- * this section for better clarity, instead of putting them in the * -->
<!-- * category of an arbitrary application.                           * -->
<!-- *                                                                 * -->
<!-- * Parameters that are specific to a single application should not * -->
<!-- * be put here, and should be put in the appropriate category      * -->
<!-- * corresponding to the application instead.                       * -->
<!-- ******************************************************************* -->
<std:node name="Common3DModeling">
  <std:node name="3DTag">
    <std:node name="Extraction">
      <std:enumval name="YesNo">No</std:enumval>
    </std:node>
  </std:node>
</std:node>
<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - COMMON 3D MODELING                  * -->
<!-- ******************************************************************* -->

<!-- ******************************************************************* -->
<!-- *         START APPLICATION - ReferencePlaneSystem                * -->
<!-- ******************************************************************* -->
  <std:node name="ReferencePlaneSystem">
    <!-- REFERENCE PLANE SYSTEM -->
    <std:node name="Draw">
	  <!-- Should it draw any ReferencePlaneSystem? -->
	  <!-- Values are No ____ the ReferencePlaneSystem will not be extracted -->
	  <!--            Yes ___ the ReferencePlaneSystem will be extracted (** default **) -->
	  <std:enumval name="YesNo">Yes</std:enumval>
    </std:node>
    <std:node name="XGRID">
	  <!-- Specification for the X grid display -->
	  <std:node name="Draw">
	    <!-- Should it draw the X grid? -->
	    <!-- Values are No ____ the X grid will not be extracted -->
	    <!--            Yes ___ the X grid will be extracted (** default **) -->
	    <std:enumval name="YesNo">Yes</std:enumval>
	  </std:node>
	  <std:node name="MainGrid">
	    <!-- Specification for the main grid display -->
	    <std:node name="Draw">
		  <!-- Should it draw the reference plane system ? -->
		  <!-- Values are No ___ no reference plane system will be drawn (** default **) -->
		  <!--            Yes __ reference plane systems will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="RestrictedToTheBoundingBox">
		  <!-- Should the reference plane systems be restricted to the generated object(s) bounding box -->
		  <!-- Values are No ___ the entire reference plane systems line will be drawn (except in case of clipping) (** default **) -->
		  <!--            Yes __ the reference plane systems will be restricted -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridsetPosition" minval="0" maxval="1">
		  <!-- Positionnement of the reference plane systems according to the generated view -->
		  <!-- Values are 0 ____ the reference plane systems are generated where the set of planes is located (** default **) -->
		  <!--            1 ____ the reference plane systems are specified -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="GridSetSelection">
		  <!-- Specify where the grids shoule be placed ? -->
		  <std:node name="GridLeft">
		    <!-- Should it draw the reference plane system on the left side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the left side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the left side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridRight">
		    <!-- Should it draw the reference plane system on the right side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the right side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the right side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridTop">
		    <!-- Should it draw the reference plane system on the top side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the top side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the top side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridBottom">
		    <!-- Should it draw the reference plane system on the bottom side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the bottom side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the bottom side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
	    </std:node>
	    <std:node name="Offset">
		  <!-- The horizontal offset to add between the generated view and the vertical reference plane system in millimeters -->
		  <!-- Default value is 35.0 millimeters -->
		  <std:floatval>35</std:floatval>
	    </std:node>
	    <std:node name="ShowMedian">
		  <!-- Should the median of the main grid be displayed ? -->
		  <!-- Values are No ___ the median of the main grid will not be displayed -->
		  <!--            Yes __ the median of the main grid display will be diaplyed (** default **) -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridSetLineType" minval="1" maxval="63">
		  <!-- The linetype index to use for Grid Set representation -->
		  <!-- Default value is 1 (solid linetype) -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="TickSize">
		  <!-- The size of the ticks in millimeters -->
		  <!-- Default value is 2.0 millimeters -->
		  <std:floatval>60</std:floatval>
	    </std:node>
	    <std:node name="AnnotationStyle" minval="0" maxval="3">
		  <!-- Style of the annotation of the frames -->
		  <!-- Values are 0 ____ no annotation  -->
		  <!--            1 ____ frames names (** default **) -->
		  <!--            2 ____ offset from the origin with the units -->
		  <!--            3 ____ offset from the origin without the units -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="AnnotationSize">
		  <!-- Size of the annotations -->
		  <!-- Default value is 2.0 millimeters -->
		  <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		  <std:floatval>2.0</std:floatval>
	    </std:node>
	    <std:node name="AnnotationFrame">
		  <!-- Type of Annotation Frame for the applied annotation -->
		  <!-- Default value is "None" -->
		  <std:enumval name="drafttextframe">None</std:enumval>
	    </std:node>
	    <std:node name="AnnotationStep" minval="1">
		  <!-- Step between 2 annotations -->
		  <!-- Default value is 1 (means you have an annotation on each stick) -->
		  <std:intval>3</std:intval>
	    </std:node>
	    <std:node name="AnnotationStart">
		  <!-- The first annotation position-->
		  <!-- Default value is -100 to display all frames in within th ebounding box -->
		  <std:intval>-100</std:intval>
	    </std:node>
	    <std:node name="Elevations">
		  <std:node name="Draw">
		    <!-- Should it draw the orientation symbol ? -->
		    <!-- Values are No ___ no orientation will be drawn -->
		    <!--            Yes __ the orientation will be drawn (** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="ZPlusOrient_Symbol">
		    <!-- The letter used for ZPlusOrient orientation -->
		    <!-- Default value is "U" -->
		    <std:strval>U</std:strval>
		  </std:node>
		  <std:node name="ZMinOrientName_Symbol">
		    <!-- The letter used for ZMinOrientName orientation -->
		    <!-- Default value is "L" -->
		    <std:strval>L</std:strval>
		  </std:node>
		  <std:node name="XPlusOrientName_Symbol">
		    <!-- The letter used for XPlusOrientName orientation -->
		    <!-- Default value is "A" -->
		    <std:strval>A</std:strval>
		  </std:node>
		  <std:node name="XMinOrientName_Symbol">
		    <!-- The letter used for XMinOrientName orientation -->
		    <!-- Default value is "F" -->
		    <std:strval>F</std:strval>
		  </std:node>
		  <std:node name="YPlusOrientName_Symbol">
		    <!-- The letter used for YPlusOrientName orientation -->
		    <!-- Default value is "S" -->
		    <std:strval>S</std:strval>
		  </std:node>
		  <std:node name="YMinOrientName_Symbol">
		    <!-- The letter used for YMinOrientName orientation -->
		    <!-- Default value is "P" -->
		    <std:strval>P</std:strval>
		  </std:node>
		  <std:node name="HullInOrientName_Symbol">
		    <!-- The letter used for HullInOrientName orientation -->
		    <!-- Default value is "I" -->
		    <std:strval>I</std:strval>
		  </std:node>
		  <std:node name="HullOutOrientName_Symbol">
		    <!-- The letter used for outboard orientation -->
		    <!-- Default value is "O" -->
		    <std:strval>O</std:strval>
		  </std:node>
		  <std:node name="FontSize">
		    <!-- The size of the piece part number text -->
		    <!-- Default is 2.0 -->
		    <std:floatval>1.5</std:floatval>
		  </std:node>
		  <!-- end Elevations-->
	    </std:node>
	    <std:node name="StandardFrame">
		  <!-- Specification for the display of type = Standard frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the Standard frames ? -->
		    <!-- Values are No ___ no standard frameswill be drawn -->
		    <!--            Yes __ standard frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Standard frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>2</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!--end Elevations-->
	    </std:node>
	    <std:node name="WebFrame">
		  <!-- Specification for the display of type = Web frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the Web frames ? -->
		    <!-- Values are No ___ no web frames will be drawn -->
		    <!--            Yes __ web frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!-- end WebFrame-->
	    </std:node>
	    <std:node name="SpecialFrame">
		  <!-- Specification for the display of type = Special frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the SpecialWeb frames ? -->
		    <!-- Values are No ___ no special frames will be drawn -->
		    <!--            Yes __ special frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!-- end SpecialFrame-->
	    </std:node>
	    <std:node name="AFT">
		  <!-- Specification for the display of category = AFT frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the AFT frames ? -->
		    <!-- Values are No ___ no AFT frames will be drawn -->
		    <!--            Yes __ AFT frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
	    </std:node>
	    <std:node name="MFZ">
		  <!-- Specification for the display of category = MFT frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the MFZ frames ? -->
		    <!-- Values are No ___ no MFX frames will be drawn -->
		    <!--            Yes __ MFX frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
	    </std:node>
	  </std:node>
	  <std:node name="SpacingGrid">
	    <!-- Specification for the spacing grid display -->
	    <std:node name="SpacingGridStyle">
		  <!-- Which style of the spacing grid should be displayed? -->
		  <!-- Values are Distance(** default **) -->
		  <!--            Space -->
		  <std:enumval name="framespacingtype">Distance</std:enumval>
	    </std:node>
	    <std:node name="ShowSpacingGrid">
		  <!-- Should it draw the spacing grid ? -->
		  <!-- Values are No ___ no spacing grid will be drawn -->
		  <!--            Yes __ spacing grid will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="RestrictedToTheBoundingBox">
		  <!-- Should the spacing grid be restricted to the generated object(s) bounding box -->
		  <!-- Values are No ___ the spacing grid systems line will be drawn (except in case of clipping) (** default **) -->
		  <!--            Yes __ the spacing grid will be restricted -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridsetPosition" minval="0" maxval="1">
		  <!-- Positionnement of the reference plane systems according to the generated view -->
		  <!-- Values are 0 ____ the reference plane systems are generated where the set of planes is located (** default **) -->
		  <!--            1 ____ the reference plane systems are specified -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="GridSetSelection">
		  <!-- Specify where the grids shoule be placed ? -->
		  <std:node name="GridLeft">
		    <!-- Should it draw the spacing grid on the left side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the left side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the left side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridRight">
		    <!-- Should it draw the spacing grid on the right side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the right side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the right side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridTop">
		    <!-- Should it draw the reference plane system on the top side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the top side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the top side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridBottom">
		    <!-- Should it draw the spacing grid on the bottom side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the bottom side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the bottom side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
	    </std:node>
	    <std:node name="Offset1">
		  <!-- The offset to add between the generated view and the median in millimeters -->
		  <!-- Default value is 20.0 millimeters -->
		  <std:floatval>20</std:floatval>
	    </std:node>
	    <std:node name="Offset2">
		  <!-- The offset to add between the generated view and the 2nd median in millimeters -->
		  <!-- Default value is 30.0 millimeters -->
		  <std:floatval>30</std:floatval>
	    </std:node>
	    <std:node name="TickSize">
		  <!-- The size of the ticks in millimeters -->
		  <!-- Default value is 2.0 millimeters -->
		  <std:floatval>60</std:floatval>
	    </std:node>
	    <std:node name="AnnotationSize">
		  <!-- Size of the annotations -->
		  <!-- Default value is 2.0 millimeters -->
		  <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		  <std:floatval>2.0</std:floatval>
	    </std:node>
	    <std:node name="TextPosition">
		  <!-- The position of the text relative to the graduation -->
		  <!-- Default value is below-->
		  <std:enumval name="frametextposition">Below</std:enumval>
	    </std:node>
	    <std:node name="MidshipsSymbolDisplay">
		  <!-- Should it draw the midships symbol ? -->
		  <!-- Values are No ___ no midships symbol will be drawn (** default **) -->
		  <!--            Yes __ midships symbol will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="MidshipsSymbolChapterName">
		  <!-- The name of the chapter containing midships symbol within the Drawing Symbol Structure Catalog (refer to PRM file) -->
		  <!-- Default value is "MTOs" -->
		  <std:strval>Structure</std:strval>
	    </std:node>
	    <std:node name="MidshipsDetailName">
		  <!-- The name of the detail within the catalog to instanciate for Midships Detail Name -->
		  <!-- Default value is "MidShip" -->
		  <std:strval>MidShip</std:strval>
	    </std:node>
	  </std:node>
	  <!--end XGRID-->
    </std:node>
    <std:node name="YGRID">
	  <!-- Specification for the Y grid display -->
	  <std:node name="Draw">
	    <!-- Should it draw the Y grid? -->
	    <!-- Values are No ____ the Y grid will not be extracted -->
	    <!--            Yes ___ the Y grid will be extracted (** default **) -->
	    <std:enumval name="YesNo">Yes</std:enumval>
	  </std:node>
	  <std:node name="MainGrid">
	    <!-- Specification for the main grid display -->
	    <std:node name="Draw">
		  <!-- Should it draw the reference plane system ? -->
		  <!-- Values are No ___ no reference plane system will be drawn (** default **) -->
		  <!--            Yes __ reference plane systems will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="RestrictedToTheBoundingBox">
		  <!-- Should the reference plane systems be restricted to the generated object(s) bounding box -->
		  <!-- Values are No ___ the entire reference plane systems line will be drawn (except in case of clipping) (** default **) -->
		  <!--            Yes __ the reference plane systems will be restricted -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridsetPosition" minval="0" maxval="1">
		  <!-- Positionnement of the reference plane systems according to the generated view -->
		  <!-- Values are 0 ____ the reference plane systems are generated where the set of planes is located (** default **) -->
		  <!--            1 ____ the reference plane systems are specified -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="GridSetSelection">
		  <!-- Specify where the grids shoule be placed ? -->
		  <std:node name="GridLeft">
		    <!-- Should it draw the reference plane system on the left side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the left side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the left side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridRight">
		    <!-- Should it draw the reference plane system on the right side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the right side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the right side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridTop">
		    <!-- Should it draw the reference plane system on the top side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the top side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the top side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridBottom">
		    <!-- Should it draw the reference plane system on the bottom side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the bottom side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the bottom side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <!--end GridSelection-->
	    </std:node>
	    <std:node name="Offset">
		  <!-- The horizontal offset to add between the generated view and the vertical reference plane system in millimeters -->
		  <!-- Default value is 35.0 millimeters -->
		  <std:floatval>35</std:floatval>
	    </std:node>
	    <std:node name="ShowMedian">
		  <!-- Should the median of the main grid be displayed ? -->
		  <!-- Values are No ___ the median of the main grid will not be displayed -->
		  <!--            Yes __ the median of the main grid display will be diaplyed (** default **) -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridSetLineType" minval="1" maxval="63">
		  <!-- The linetype index to use for Grid Set representation -->
		  <!-- Default value is 1 (solid linetype) -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="TickSize">
		  <!-- The size of the ticks in millimeters -->
		  <!-- Default value is 2.0 millimeters -->
		  <std:floatval>60</std:floatval>
	    </std:node>
	    <std:node name="AnnotationStyle" minval="0" maxval="3">
		  <!-- Style of the annotation of the frames -->
		  <!-- Values are 0 ____ no annotation  -->
		  <!--            1 ____ frames names (** default **) -->
		  <!--            2 ____ offset from the origin with the units -->
		  <!--            3 ____ offset from the origin without the units -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="AnnotationSize">
		  <!-- Size of the annotations -->
		  <!-- Default value is 2.0 millimeters -->
		  <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		  <std:floatval>2.0</std:floatval>
	    </std:node>
	    <std:node name="AnnotationFrame">
		  <!-- Type of Annotation Frame for the applied annotation -->
		  <!-- Default value is "None" -->
		  <std:enumval name="drafttextframe">None</std:enumval>
	    </std:node>
	    <std:node name="AnnotationStep" minval="1">
		  <!-- Step between 2 annotations -->
		  <!-- Default value is 1 (means you have an annotation on each stick) -->
		  <std:intval>3</std:intval>
	    </std:node>
	    <std:node name="AnnotationStart">
		  <!-- The first annotation position-->
		  <!-- Default value is -100 to display all frames in within th ebounding box -->
		  <std:intval>-100</std:intval>
	    </std:node>
	    <std:node name="Elevations">
		  <std:node name="Draw">
		    <!-- Should it draw the orientation symbol ? -->
		    <!-- Values are No ___ no orientation will be drawn -->
		    <!--            Yes __ the orientation will be drawn (** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="ZPlusOrient_Symbol">
		    <!-- The letter used for ZPlusOrient orientation -->
		    <!-- Default value is "U" -->
		    <std:strval>U</std:strval>
		  </std:node>
		  <std:node name="ZMinOrientName_Symbol">
		    <!-- The letter used for ZMinOrientName orientation -->
		    <!-- Default value is "L" -->
		    <std:strval>L</std:strval>
		  </std:node>
		  <std:node name="XPlusOrientName_Symbol">
		    <!-- The letter used for XPlusOrientName orientation -->
		    <!-- Default value is "A" -->
		    <std:strval>A</std:strval>
		  </std:node>
		  <std:node name="XMinOrientName_Symbol">
		    <!-- The letter used for XMinOrientName orientation -->
		    <!-- Default value is "F" -->
		    <std:strval>F</std:strval>
		  </std:node>
		  <std:node name="YPlusOrientName_Symbol">
		    <!-- The letter used for YPlusOrientName orientation -->
		    <!-- Default value is "S" -->
		    <std:strval>S</std:strval>
		  </std:node>
		  <std:node name="YMinOrientName_Symbol">
		    <!-- The letter used for YMinOrientName orientation -->
		    <!-- Default value is "P" -->
		    <std:strval>P</std:strval>
		  </std:node>
		  <std:node name="HullInOrientName_Symbol">
		    <!-- The letter used for HullInOrientName orientation -->
		    <!-- Default value is "I" -->
		    <std:strval>I</std:strval>
		  </std:node>
		  <std:node name="HullOutOrientName_Symbol">
		    <!-- The letter used for outboard orientation -->
		    <!-- Default value is "O" -->
		    <std:strval>O</std:strval>
		  </std:node>
		  <std:node name="FontSize">
		    <!-- The size of the piece part number text -->
		    <!-- Default is 2.0 -->
		    <std:floatval>1.5</std:floatval>
		  </std:node>
		  <!-- end YGRID Elevations-->
	    </std:node>
	    <std:node name="StandardFrame">
		  <!-- Specification for the display of type = Standard frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the Standard frames ? -->
		    <!-- Values are No ___ no standard frameswill be drawn -->
		    <!--            Yes __ standard frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Standard frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>5</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>2</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>1.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!--end YGRID StandardFrame-->
	    </std:node>
	    <std:node name="WebFrame">
		  <!-- Specification for the display of type = Web frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the Web frames ? -->
		    <!-- Values are No ___ no web frames will be drawn -->
		    <!--            Yes __ web frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>10</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Above</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>3.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!-- end YGRID WebFrame-->
	    </std:node>
	    <std:node name="SpecialFrame">
		  <!-- Specification for the display of type = Special frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the SpecialWeb frames ? -->
		    <!-- Values are No ___ no special frames will be drawn -->
		    <!--            Yes __ special frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>15</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">AboveTheLine</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Above</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!-- end YGRID SpecialFrame-->
	    </std:node>
	    <std:node name="AFT">
		  <!-- Specification for the display of category = AFT frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the AFT frames ? -->
		    <!-- Values are No ___ no AFT frames will be drawn -->
		    <!--            Yes __ AFT frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!-- end YGRID AFT-->
	    </std:node>
	    <std:node name="MFZ">
		  <!-- Specification for the display of category = MFT frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the MFZ frames ? -->
		    <!-- Values are No ___ no MFX frames will be drawn -->
		    <!--            Yes __ MFX frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!-- end YGRID MFZ-->
	    </std:node>
	    <!-- end YGRID MAINGRID-->
	  </std:node>
	  <std:node name="SpacingGrid">
	    <!-- Specification for the spacing grid display -->
	    <std:node name="SpacingGridStyle">
		  <!-- Which style of the spacing grid should be displayed? -->
		  <!-- Values are Distance(** default **) -->
		  <!--            Space -->
		  <std:enumval name="framespacingtype">Space</std:enumval>
	    </std:node>
	    <std:node name="ShowSpacingGrid">
		  <!-- Should it draw the spacing grid ? -->
		  <!-- Values are No ___ no spacing grid will be drawn -->
		  <!--            Yes __ spacing grid will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="RestrictedToTheBoundingBox">
		  <!-- Should the spacing grid be restricted to the generated object(s) bounding box -->
		  <!-- Values are No ___ the spacing grid systems line will be drawn (except in case of clipping) (** default **) -->
		  <!--            Yes __ the spacing grid will be restricted -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridsetPosition" minval="0" maxval="1">
		  <!-- Positionnement of the reference plane systems according to the generated view -->
		  <!-- Values are 0 ____ the reference plane systems are generated where the set of planes is located (** default **) -->
		  <!--            1 ____ the reference plane systems are specified -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="GridSetSelection">
		  <!-- Specify where the grids shoule be placed ? -->
		  <std:node name="GridLeft">
		    <!-- Should it draw the spacing grid on the left side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the left side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the left side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridRight">
		    <!-- Should it draw the spacing grid on the right side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the right side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the right side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridTop">
		    <!-- Should it draw the reference plane system on the top side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the top side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the top side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridBottom">
		    <!-- Should it draw the spacing grid on the bottom side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the bottom side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the bottom side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
	    </std:node>
	    <std:node name="Offset1">
		  <!-- The offset to add between the generated view and the median in millimeters -->
		  <!-- Default value is 20.0 millimeters -->
		  <std:floatval>45</std:floatval>
	    </std:node>
	    <std:node name="Offset2">
		  <!-- The offset to add between the generated view and the 2nd median in millimeters -->
		  <!-- Default value is 30.0 millimeters -->
		  <std:floatval>0</std:floatval>
	    </std:node>
	    <std:node name="TickSize">
		  <!-- The size of the ticks in millimeters -->
		  <!-- Default value is 2.0 millimeters -->
		  <std:floatval>20</std:floatval>
	    </std:node>
	    <std:node name="AnnotationSize">
		  <!-- Size of the annotations -->
		  <!-- Default value is 2.0 millimeters -->
		  <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		  <std:floatval>2.0</std:floatval>
	    </std:node>
	    <std:node name="TextPosition">
		  <!-- The position of the text relative to the graduation -->
		  <!-- Default value is below-->
		  <std:enumval name="frametextposition">Below</std:enumval>
	    </std:node>
	    <std:node name="MidshipsSymbolDisplay">
		  <!-- Should it draw the midships symbol ? -->
		  <!-- Values are No ___ no midships symbol will be drawn (** default **) -->
		  <!--            Yes __ midships symbol will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">No</std:enumval>
	    </std:node>
	    <std:node name="MidshipsSymbolChapterName">
		  <!-- The name of the chapter containing midships symbol within the Drawing Symbol Structure Catalog (refer to PRM file) -->
		  <!-- Default value is "MTOs" -->
		  <std:strval>Structure</std:strval>
	    </std:node>
	    <std:node name="MidshipsDetailName">
		  <!-- The name of the detail within the catalog to instanciate for Midships Detail Name -->
		  <!-- Default value is "MidShip" -->
		  <std:strval>MidShip</std:strval>
	    </std:node>
	    <!--end YGRID SpacingGrid-->
	  </std:node>
	  <!--end YGRID-->
    </std:node>
    <std:node name="ZGRID">
	  <!-- Specification for the Z grid display -->
	  <std:node name="Draw">
	    <!-- Should it draw the Z grid? -->
	    <!-- Values are No ____ the Z grid will not be extracted -->
	    <!--            Yes ___ the Z grid will be extracted (** default **) -->
	    <std:enumval name="YesNo">Yes</std:enumval>
	  </std:node>
	  <std:node name="MainGrid">
	    <!-- Specification for the main grid display -->
	    <std:node name="Draw">
		  <!-- Should it draw the reference plane system ? -->
		  <!-- Values are No ___ no reference plane system will be drawn (** default **) -->
		  <!--            Yes __ reference plane systems will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="RestrictedToTheBoundingBox">
		  <!-- Should the reference plane systems be restricted to the generated object(s) bounding box -->
		  <!-- Values are No ___ the entire reference plane systems line will be drawn (except in case of clipping) (** default **) -->
		  <!--            Yes __ the reference plane systems will be restricted -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridsetPosition" minval="0" maxval="1">
		  <!-- Positionnement of the reference plane systems according to the generated view -->
		  <!-- Values are 0 ____ the reference plane systems are generated where the set of planes is located (** default **) -->
		  <!--            1 ____ the reference plane systems are specified -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="GridSetSelection">
		  <!-- Specify where the grids shoule be placed ? -->
		  <std:node name="GridLeft">
		    <!-- Should it draw the reference plane system on the left side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the left side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the left side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridRight">
		    <!-- Should it draw the reference plane system on the right side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the right side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the right side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridTop">
		    <!-- Should it draw the reference plane system on the top side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the top side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the top side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridBottom">
		    <!-- Should it draw the reference plane system on the bottom side of the model ? -->
		    <!-- Values are No ___ no reference plane system will be drawn on the bottom side of the model (** default **) -->
		    <!--            Yes __ reference plane systems will be drawn on the bottom side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <!--end ZGRID GridSetSelection-->
	    </std:node>
	    <std:node name="Offset">
		  <!-- The horizontal offset to add between the generated view and the vertical reference plane system in millimeters -->
		  <!-- Default value is 35.0 millimeters -->
		  <std:floatval>35</std:floatval>
	    </std:node>
	    <std:node name="ShowMedian">
		  <!-- Should the median of the main grid be displayed ? -->
		  <!-- Values are No ___ the median of the main grid will not be displayed -->
		  <!--            Yes __ the median of the main grid display will be diaplyed (** default **) -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridSetLineType" minval="1" maxval="63">
		  <!-- The linetype index to use for Grid Set representation -->
		  <!-- Default value is 1 (solid linetype) -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="TickSize">
		  <!-- The size of the ticks in millimeters -->
		  <!-- Default value is 2.0 millimeters -->
		  <std:floatval>60</std:floatval>
	    </std:node>
	    <std:node name="AnnotationStyle" minval="0" maxval="3">
		  <!-- Style of the annotation of the frames -->
		  <!-- Values are 0 ____ no annotation  -->
		  <!--            1 ____ frames names (** default **) -->
		  <!--            2 ____ offset from the origin with the units -->
		  <!--            3 ____ offset from the origin without the units -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="AnnotationSize">
		  <!-- Size of the annotations -->
		  <!-- Default value is 2.0 millimeters -->
		  <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		  <std:floatval>2.0</std:floatval>
	    </std:node>
	    <std:node name="AnnotationFrame">
		  <!-- Type of Annotation Frame for the applied annotation -->
		  <!-- Default value is "None" -->
		  <std:enumval name="drafttextframe">None</std:enumval>
	    </std:node>
	    <std:node name="AnnotationStep" minval="1">
		  <!-- Step between 2 annotations -->
		  <!-- Default value is 1 (means you have an annotation on each stick) -->
		  <std:intval>3</std:intval>
	    </std:node>
	    <std:node name="AnnotationStart">
		  <!-- The first annotation position-->
		  <!-- Default value is -100 to display all frames in within th ebounding box -->
		  <std:intval>-100</std:intval>
	    </std:node>
	    <std:node name="Elevations">
		  <std:node name="Draw">
		    <!-- Should it draw the orientation symbol ? -->
		    <!-- Values are No ___ no orientation will be drawn -->
		    <!--            Yes __ the orientation will be drawn (** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="ZPlusOrient_Symbol">
		    <!-- The letter used for ZPlusOrient orientation -->
		    <!-- Default value is "U" -->
		    <std:strval>U</std:strval>
		  </std:node>
		  <std:node name="ZMinOrientName_Symbol">
		    <!-- The letter used for ZMinOrientName orientation -->
		    <!-- Default value is "L" -->
		    <std:strval>L</std:strval>
		  </std:node>
		  <std:node name="XPlusOrientName_Symbol">
		    <!-- The letter used for XPlusOrientName orientation -->
		    <!-- Default value is "A" -->
		    <std:strval>A</std:strval>
		  </std:node>
		  <std:node name="XMinOrientName_Symbol">
		    <!-- The letter used for XMinOrientName orientation -->
		    <!-- Default value is "F" -->
		    <std:strval>F</std:strval>
		  </std:node>
		  <std:node name="YPlusOrientName_Symbol">
		    <!-- The letter used for YPlusOrientName orientation -->
		    <!-- Default value is "S" -->
		    <std:strval>S</std:strval>
		  </std:node>
		  <std:node name="YMinOrientName_Symbol">
		    <!-- The letter used for YMinOrientName orientation -->
		    <!-- Default value is "P" -->
		    <std:strval>P</std:strval>
		  </std:node>
		  <std:node name="HullInOrientName_Symbol">
		    <!-- The letter used for HullInOrientName orientation -->
		    <!-- Default value is "I" -->
		    <std:strval>I</std:strval>
		  </std:node>
		  <std:node name="HullOutOrientName_Symbol">
		    <!-- The letter used for outboard orientation -->
		    <!-- Default value is "O" -->
		    <std:strval>O</std:strval>
		  </std:node>
		  <std:node name="FontSize">
		    <!-- The size of the piece part number text -->
		    <!-- Default is 2.0 -->
		    <std:floatval>1.5</std:floatval>
		  </std:node>
		  <!--end ZGRID Elevations-->
	    </std:node>
	    <std:node name="StandardFrame">
		  <!-- Specification for the display of type = Standard frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the Standard frames ? -->
		    <!-- Values are No ___ no standard frameswill be drawn -->
		    <!--            Yes __ standard frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Standard frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>3</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>10</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">Rectangle</std:enumval>
		  </std:node>
		  <!--end ZGRID StandardFrame-->
	    </std:node>
	    <std:node name="WebFrame">
		  <!-- Specification for the display of type = Web frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the Web frames ? -->
		    <!-- Values are No ___ no web frames will be drawn -->
		    <!--            Yes __ web frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!--end ZGRID WebFrame-->
	    </std:node>
	    <std:node name="SpecialFrame">
		  <!-- Specification for the display of type = Special frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the SpecialWeb frames ? -->
		    <!-- Values are No ___ no special frames will be drawn -->
		    <!--            Yes __ special frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!--end ZGRID SpecialFrame-->
	    </std:node>
	    <std:node name="AFT">
		  <!-- Specification for the display of category = AFT frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the AFT frames ? -->
		    <!-- Values are No ___ no AFT frames will be drawn -->
		    <!--            Yes __ AFT frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!--end ZGRID AFT-->
	    </std:node>
	    <std:node name="MFZ">
		  <!-- Specification for the display of category = MFT frames in the plane XML -->
		  <std:node name="Draw">
		    <!-- Should it draw the MFZ frames ? -->
		    <!-- Values are No ___ no MFX frames will be drawn -->
		    <!--            Yes __ MFX frames will be drawn ( ** default **) -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="LineType" minval="1" maxval="63">
		    <!-- The linetype index to use for Web frame graduation -->
		    <!-- Default value is 1 (solid linetype) -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TickSize">
		    <!-- The size of the ticks in millimeters -->
		    <!-- Default value is 2.0 millimeters -->
		    <std:floatval>60</std:floatval>
		  </std:node>
		  <std:node name="Position">
		    <!-- The position of the gradition relative to the median -->
		    <!-- Default value is Centered-->
		    <std:enumval name="framelineposition">Centered</std:enumval>
		  </std:node>
		  <std:node name="AnnotationStyle" minval="0" maxval="3">
		    <!-- Style of the annotation of the frames -->
		    <!-- Values are 0 ____ no annotation  -->
		    <!--            1 ____ frames name (** default **) -->
		    <!--            2 ____ short name -->
		    <!--            3 ____ offset from the origin with the units -->
		    <!--            4 ____ offset from the origin without the units -->
		    <std:intval>1</std:intval>
		  </std:node>
		  <std:node name="TextPosition">
		    <!-- The position of the text relative to the graduation -->
		    <!-- Default value is below-->
		    <std:enumval name="frametextposition">Below</std:enumval>
		  </std:node>
		  <std:node name="AnnotationSize">
		    <!-- Size of the annotations -->
		    <!-- Default value is 2.0 millimeters -->
		    <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		    <std:floatval>2.0</std:floatval>
		  </std:node>
		  <std:node name="AnnotationFrame">
		    <!-- Type of Annotation Frame for the applied annotation -->
		    <!-- Default value is "None" -->
		    <std:enumval name="drafttextframe">None</std:enumval>
		  </std:node>
		  <!--end ZGrid MFZ-->
	    </std:node>
	    <!--end ZGrid MainGrid-->
	  </std:node>
	  <std:node name="SpacingGrid">
	    <!-- Specification for the spacing grid display -->
	    <std:node name="SpacingGridStyle">
		  <!-- Which style of the spacing grid should be displayed? -->
		  <!-- Values are Distance(** default **) -->
		  <!--            Space -->
		  <std:enumval name="framespacingtype">Distance</std:enumval>
	    </std:node>
	    <std:node name="ShowSpacingGrid">
		  <!-- Should it draw the spacing grid ? -->
		  <!-- Values are No ___ no spacing grid will be drawn -->
		  <!--            Yes __ spacing grid will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="RestrictedToTheBoundingBox">
		  <!-- Should the spacing grid be restricted to the generated object(s) bounding box -->
		  <!-- Values are No ___ the spacing grid systems line will be drawn (except in case of clipping) (** default **) -->
		  <!--            Yes __ the spacing grid will be restricted -->
		  <std:enumval name="YesNo">Yes</std:enumval>
	    </std:node>
	    <std:node name="GridsetPosition" minval="0" maxval="1">
		  <!-- Positionnement of the reference plane systems according to the generated view -->
		  <!-- Values are 0 ____ the reference plane systems are generated where the set of planes is located (** default **) -->
		  <!--            1 ____ the reference plane systems are specified -->
		  <std:intval>1</std:intval>
	    </std:node>
	    <std:node name="GridSetSelection">
		  <!-- Specify where the grids shoule be placed ? -->
		  <std:node name="GridLeft">
		    <!-- Should it draw the spacing grid on the left side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the left side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the left side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  <std:node name="GridRight">
		    <!-- Should it draw the spacing grid on the right side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the right side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the right side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridTop">
		    <!-- Should it draw the reference plane system on the top side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the top side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the top side of the model -->
		    <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  <std:node name="GridBottom">
		    <!-- Should it draw the spacing grid on the bottom side of the model ? -->
		    <!-- Values are No ___ no spacing grid will be drawn on the bottom side of the model (** default **) -->
		    <!--            Yes __ spacing grid will be drawn on the bottom side of the model -->
		    <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
	    </std:node>
	    <std:node name="Offset1">
		  <!-- The offset to add between the generated view and the median in millimeters -->
		  <!-- Default value is 20.0 millimeters -->
		  <std:floatval>20</std:floatval>
	    </std:node>
	    <std:node name="Offset2">
		  <!-- The offset to add between the generated view and the 2nd median in millimeters -->
		  <!-- Default value is 30.0 millimeters -->
		  <std:floatval>30</std:floatval>
	    </std:node>
	    <std:node name="TickSize">
		  <!-- The size of the ticks in millimeters -->
		  <!-- Default value is 2.0 millimeters -->
		  <std:floatval>60</std:floatval>
	    </std:node>
	    <std:node name="AnnotationSize">
		  <!-- Size of the annotations -->
		  <!-- Default value is 2.0 millimeters -->
		  <!-- Model unit must be millimeter for length params (else, set the size to 0.2 if your param is centimeter) -->
		  <std:floatval>2.0</std:floatval>
	    </std:node>
	    <std:node name="TextPosition">
		  <!-- The position of the text relative to the graduation -->
		  <!-- Default value is below-->
		  <std:enumval name="frametextposition">Above</std:enumval>
	    </std:node>
	    <std:node name="MidshipsSymbolDisplay">
		  <!-- Should it draw the midships symbol ? -->
		  <!-- Values are No ___ no midships symbol will be drawn (** default **) -->
		  <!--            Yes __ midships symbol will be drawn depending on the next settings -->
		  <std:enumval name="YesNo">No</std:enumval>
	    </std:node>
	    <std:node name="MidshipsSymbolChapterName">
		  <!-- The name of the chapter containing midships symbol within the Drawing Symbol Structure Catalog (refer to PRM file) -->
		  <!-- Default value is "MTOs" -->
		  <std:strval>Structure</std:strval>
	    </std:node>
	    <std:node name="MidshipsDetailName">
		  <!-- The name of the detail within the catalog to instanciate for Midships Detail Name -->
		  <!-- Default value is "MidShip" -->
		  <std:strval>MidShip</std:strval>
	    </std:node>
	    <!-- ZGRID SpacingGrid-->
	  </std:node>
	  <!--end ZGRID-->
    </std:node>
    <!--end ReferencePlaneSystem-->
  </std:node>
<!-- ******************************************************************* -->
<!-- *         END APPLICATION - ReferencePlaneSystem                  * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         START APPLICATION - Structure                           * -->
<!-- ******************************************************************* -->
  <std:node name = "Structure">
	  <std:node name = "Version">
		  <std:strval>V6R215GA</std:strval>
	  </std:node>
	  <std:node name = "StructureObjects">
		  <std:node name = "Stiffener">
			  <!-- STIFFENER -->
			  <std:node name = "Draw">
				  <!-- Should it draw the stiffener ? -->
				  <!-- Values are No ____ the stiffener will not be extracted -->
				  <!--            Yes ___ the stiffener will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "GraphicReplacement">
				  <!-- Should it use the graphic replacement ? -->
				  <!-- Values are No ____ no graphic replacement will be used -->
				  <!--            Yes ___ graphic replacement will be used (** default **)-->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "AngularTolerance">
				  <!-- Angular tolerance for to trigger this type of View in degrees -->
				  <!-- Default value is 15.0  -->
				  <std:floatval>15.0</std:floatval>
			  </std:node>
			  <std:node name = "ViewType">
				  <std:node name = "TopView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--End NearSide-->
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn  -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--End FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AcrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiff_name</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "FlangeOrientationSymbol">
						  <!-- The FlangeOrientation Section will be under the TopView section of the Stiffener in R18 -->
						  <std:node name = "Draw">
							  <!-- Should it draw arrowheads at ends of stiffener ? -->
							  <!-- Values are No ____ no symbols representing the stiffener ends will be drawn (** default **) -->
							  <!--            Yes ___ symbols representing stiffener end will be used (see "EndSymbolDetailName" setting) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <!-- The name of the chapter containing FlangeOrientation symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
							  <!-- Default value is "FlangeOrientation" -->
							  <std:strval>FlangeOrientations</std:strval>
						  </std:node>
						  <std:node name = "SymbolName">
							  <!-- The name of the detail within the catalog to instanciate for FlangeOrientation -->
							  <!-- Default value is "Default_FlangeOrientation_Symbol" -->
							  <std:strval>Default_FlangeOrientation_Symbol</std:strval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- The scale to set the Flange Orientation Detail to -->
							  <!-- Default value is 1.0  -->
							  <std:floatval>1.0</std:floatval>
						  </std:node>
						  <std:node name = "SymbolLocation">
							  <std:enumval name = "ProfileLocation">Middle</std:enumval>
						  </std:node>
						  <!--End FlangeOrientation-->
					  </std:node>
					  <std:node name = "ExtremitySymbol">
						  <std:node name = "Draw">
							  <!-- Should it draw arrowheads at ends of stiffener ? -->
							  <!-- Values are No ____ no symbols representing the stiffener ends will be drawn (** default **) -->
							  <!--            Yes ___ symbols representing stiffener end will be used (see "EndSymbolDetailName" setting) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "MinimumLengthRatio">
							  <!-- Minimum length of stiffener at which the end symbol will be displayed -->
							  <!-- Value is between 0 and 1.                                             -->
							  <!-- A Value of 0 will result in no end symbol being placed, while a value -->
							  <!-- of 1 will result in a display if the end symbol is smaller than the   -->
							  <!-- length of the stiffener.  Default is .45                              -->
							  <std:floatval>.45</std:floatval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- The scale to set the End Symbol Detail to -->
							  <!-- Default value is 1.0  -->
							  <std:floatval>1.0</std:floatval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <!-- The name of the chapter containing end symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
							  <!-- Default value is "Ends" -->
							  <std:strval>Ends</std:strval>
						  </std:node>
						  <std:node name = "DefaultExtremitySymbol">
							  <std:node name = "SymbolName">
								  <!-- The name of the detail within the catalog to instanciate for ends of stiffener -->
								  <!-- Default value is "BlackFilledArrow_3x1.5" -->
								  <std:strval>BlackFilledArrow_3x1.5</std:strval>
							  </std:node>
						  </std:node>
						  <std:node name = "ExtremitySymbolByEndCutType">
							  <std:node name = "Draw">
								  <!-- Should the Stiffener end symbol be dependant on the end cut type ? -->
								  <!-- Values are No ____ the SymbolsAtEndsOfProfile option will always be used (** default **) -->
								  <!--            Yes ___ symbols will be chosen in following settings according to EndCut type -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "SNIPE">
								  <std:strval>NotFilledArrow_3x1.5</std:strval>
							  </std:node>
							  <std:node name = "WELD">
								  <std:strval>HalfArrow_3x1.5</std:strval>
							  </std:node>
							  <std:node name = "TRIM">
								  <std:strval>T-A49XH</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "MaterialExtrusionSymbol">
						  <std:node name = "Draw">
							  <!-- Should it draw Material Extrusion Symbol? -->
							  <!-- Values are No ____ Material Extrusion Symbol will not be drawn (** default **)-->
							  <!--            Yes ___ Material Extrusion Symbol will be drawn  -->
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <std:node name = "MaterialExtrusionMode">
							  <!-- Values are 'Tick mark (true width)' __________ draw only the Tick Mark (see the TM_OffsetFromEndOfMember, and TM_Length settings) -->
							  <!--            'Throw orientation (symbolic)' ____ draw only the Material Throw Orientation (see the MTO_DetailName setting) -->
							  <!--            'Tick mark and throw orientation'__ draw both the Material Throw Orientation and the Tick Mark -->
							  <std:enumval name = "MaterialExtrusion">Throw orientation (symbolic)</std:enumval>
						  </std:node>
						  <std:node name = "SymbolLocation">
							  <std:enumval name = "ProfileLocation">Start</std:enumval>
						  </std:node>
						  <std:node name = "MaterialThroughOrientationSymbol">
							  <std:node name = "ChapterName">
								  <!-- The name of the chapter containing MTO symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
								  <!-- Default value is "MTOs" -->
								  <std:strval>MTOs</std:strval>
							  </std:node>
							  <std:node name = "SymbolName">
								  <!-- The name of the detail within the catalog to instanciate for Material Throw Orientation -->
								  <!-- Default value is "BlackFilledRectangle_5x1" -->
								  <!-- Important: this setting is used only when the MaterialThrowOrientation setting is set to 1 or 3 -->
								  <std:strval>BlackFilledRectangle_5x1_CTR</std:strval>
							  </std:node>
							  <std:node name = "ReferenceScale">
								  <!-- The scale to set the Flange Orientation Detail to -->
								  <!-- Default value is 1.0  -->
								  <std:floatval>1.0</std:floatval>
							  </std:node>
						  </std:node>
						  <std:node name = "TickMarkSymbol">
							  <std:node name = "Length">
								  <!-- The Tick Mark length -->
								  <!-- Default value is 5.0 millimeters -->
								  <std:floatval>5.0</std:floatval>
							  </std:node>
						  </std:node>
					  </std:node>
				  </std:node>
				  <std:node name = "SideView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AcrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiff_name</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "FlangeOrientationSymbol">
						  <!-- In SideView, Flange Orientation is distinguished Near, Far by GR Line -->
						  <std:node name = "Draw">
							  <!-- Should it draw GR Line? -->
							  <!-- Value is No ____ No GR Line representing -->
							  <!-- Value is Yes ___ GR Line eepresenting 		-->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "OffsetMode">
							  <!-- What measurement mode should be applied while drawing the GR Line ? -->
							  <!-- Value is Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
							  <!-- Value is Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
							  <std:enumval name = "DistanceMode">Absolute</std:enumval>
						  </std:node>
						  <std:node name = "OffsetValue">
							  <!-- When OffsetMode is Relative, OffsetValue must be between 0 and 1 -->
							  <!-- When OffsetValue is out of boundary, OffsetValue is applied 0 -->
							  <!-- When OffsetMode is Relative, OffsetValue has to be real length in the 3D -->
							  <!-- Unit of OffsetValue must be (mm) -->
							  <std:strval>50</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "ExtremitySymbol">
						  <std:node name = "Draw">
							  <!-- Should it draw arrowheads at ends of stiffener ? -->
							  <!-- Values are No ____ no symbols representing the stiffener ends will be drawn (** default **) -->
							  <!--            Yes ___ symbols representing stiffener end will be used (see "EndSymbolDetailName" setting) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "MinimumLengthRatio">
							  <!-- Minimum length of stiffener at which the end symbol will be displayed -->
							  <!-- Value is between 0 and 1.                                             -->
							  <!-- A Value of 0 will result in no end symbol being placed, while a value -->
							  <!-- of 1 will result in a display if the end symbol is smaller than the   -->
							  <!-- length of the stiffener.  Default is .45                              -->
							  <std:floatval>.45</std:floatval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- The scale to set the Flange Orientation Detail to -->
							  <!-- Default value is 1.0  -->
							  <std:floatval>1.0</std:floatval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <!-- The name of the chapter containing end symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
							  <!-- Default value is "Ends" -->
							  <std:strval>Ends</std:strval>
						  </std:node>
						  <std:node name = "ExtremitySymbolByEndCutType">
							  <std:node name = "SNIPE">
								  <std:strval>ec_45_degree</std:strval>
							  </std:node>
							  <std:node name = "WELD">
								  <std:strval>ec_60_degree</std:strval>
							  </std:node>
							  <std:node name = "TRIM">
								  <std:strval>ec_45_degree_dbl</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "SlotContour">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
					  </std:node>
					  <!--fin du noeud SideView-->
				  </std:node>
				  <std:node name = "EndView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noed FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side stiffeners ? -->
							  <!-- Values are No ____ Accross side stiffener will not be drawn -->
							  <!--            Yes ___ Accross side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiff_name</std:strval>
						  </std:node>
					  </std:node>
					  <!--fin du noeud EndView-->
				  </std:node>
				  <std:node name = "AnyView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud NearSide-->
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noed FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side stiffeners ? -->
							  <!-- Values are No ____ Accross side stiffener will not be drawn -->
							  <!--            Yes ___ Accross side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiff_name</std:strval>
						  </std:node>
					  </std:node>
					  <!--fin du noeud AnyView-->
				  </std:node>
				  <!--end ViewType node-->
			  </std:node>
		  </std:node>
		  <!-- Stiffener on Free Edge -->
		  <std:node name = "StiffenerOnFreeEdge">
			  <!-- STIFFENER -->
			  <std:node name = "Draw">
				  <!-- Should it draw the stiffener ? -->
				  <!-- Values are No ____ the stiffener will not be extracted -->
				  <!--            Yes ___ the stiffener will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "GraphicReplacement">
				  <!-- Should it use the graphic replacement ? -->
				  <!-- Values are No ____ no graphic replacement will be used -->
				  <!--            Yes ___ graphic replacement will be used (** default **)-->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "AngularTolerance">
				  <!-- Angular tolerance for to trigger this type of View in degrees -->
				  <!-- Default value is 15.0  -->
				  <std:floatval>15.0</std:floatval>
			  </std:node>
			  <std:node name = "ViewType">
				  <std:node name = "TopView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--End NearSide-->
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn  -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--End FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AcrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiffofe_name</std:strval>
						  </std:node>
					  </std:node>
				  </std:node>
				  <std:node name = "SideView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AcrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiffofe_name</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "FlangeOrientationSymbol">
						  <!-- In SideView, Flange Orientation is distinguished Near, Far by GR Line -->
						  <std:node name = "Draw">
							  <!-- Should it draw GR Line? -->
							  <!-- Value is No ____ No GR Line representing -->
							  <!-- Value is Yes ___ GR Line eepresenting 		-->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "OffsetMode">
							  <!-- What measurement mode should be applied while drawing the GR Line ? -->
							  <!-- Value is Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
							  <!-- Value is Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
							  <std:enumval name = "DistanceMode">Absolute</std:enumval>
						  </std:node>
						  <std:node name = "OffsetValue">
							  <!-- When OffsetMode is Relative, OffsetValue must be between 0 and 1 -->
							  <!-- When OffsetValue is out of boundary, OffsetValue is applied 0 -->
							  <!-- When OffsetMode is Relative, OffsetValue has to be real length in the 3D -->
							  <!-- Unit of OffsetValue must be (mm) -->
							  <std:strval>50</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "ExtremitySymbol">
						  <std:node name = "Draw">
							  <!-- Should it draw arrowheads at ends of stiffener ? -->
							  <!-- Values are No ____ no symbols representing the stiffener ends will be drawn (** default **) -->
							  <!--            Yes ___ symbols representing stiffener end will be used (see "EndSymbolDetailName" setting) -->
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <std:node name = "MinimumLengthRatio">
							  <!-- Minimum length of stiffener at which the end symbol will be displayed -->
							  <!-- Value is between 0 and 1.                                             -->
							  <!-- A Value of 0 will result in no end symbol being placed, while a value -->
							  <!-- of 1 will result in a display if the end symbol is smaller than the   -->
							  <!-- length of the stiffener.  Default is .45                              -->
							  <std:floatval>.45</std:floatval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- The scale to set the Flange Orientation Detail to -->
							  <!-- Default value is 1.0  -->
							  <std:floatval>1.0</std:floatval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <!-- The name of the chapter containing end symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
							  <!-- Default value is "Ends" -->
							  <std:strval>Ends</std:strval>
						  </std:node>
						  <std:node name = "ExtremitySymbolByEndCutType">
							  <std:node name = "SNIPE">
								  <std:strval>ec_45_degree</std:strval>
							  </std:node>
							  <std:node name = "WELD">
								  <std:strval>ec_60_degree</std:strval>
							  </std:node>
							  <std:node name = "TRIM">
								  <std:strval>ec_45_degree_dbl</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "SlotContour">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
					  </std:node>
					  <!--fin du noeud SideView-->
				  </std:node>
				  <std:node name = "EndView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noed FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side stiffeners ? -->
							  <!-- Values are No ____ Accross side stiffener will not be drawn -->
							  <!--            Yes ___ Accross side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiffofe_name</std:strval>
						  </std:node>
					  </std:node>
					  <!--fin du noeud EndView-->
				  </std:node>
				  <std:node name = "AnyView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side stiffeners ? -->
							  <!-- Values are No ____ near side stiffener will not be drawn -->
							  <!--            Yes ___ near side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side stiffener representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud NearSide-->
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side stiffeners ? -->
							  <!-- Values are No ____ far side stiffener will not be drawn -->
							  <!--            Yes ___ far side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noed FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side stiffeners ? -->
							  <!-- Values are No ____ Accross side stiffener will not be drawn -->
							  <!--            Yes ___ Accross side stiffener will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Requests (ATS_Attribute thru ATS_40 available)    * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_stiffofe_name</std:strval>
						  </std:node>
					  </std:node>
					  <!--fin du noeud AnyView-->
				  </std:node>
				  <!--end ViewType node-->
			  </std:node>
		  </std:node>
		  <!-- ********************************************************************************************* -->
		  <std:node name = "Beam">
			  <!-- Pillar -->
			  <std:node name = "Draw">
				  <!-- Should it draw the Beam? -->
				  <!-- Values are No ____ the Beam will not be extracted -->
				  <!--            Yes ___ the Beam will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "GraphicReplacement">
				  <!-- Should it use the graphic replacement ? -->
				  <!-- Values are No ____ no graphic replacement will be used (** default **) -->
				  <!--            Yes ___ graphic replacement will be used -->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "AngularTolerance">
				  <!-- Angular tolerance for to trigger this type of View in degrees -->
				  <!-- Default value is 15.0  -->
				  <std:floatval>15.0</std:floatval>
			  </std:node>
			  <std:node name = "ViewType">
				  <std:node name = "EndView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side beams ? -->
							  <!-- Values are No ____ near side Pillar will not be drawn -->
							  <!--            Yes ___ near side Pillar will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Pillar representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side Pillar ? -->
							  <!-- Values are No ____ far side Pillar will not be drawn (** default **) -->
							  <!--            Yes ___ far side Pillar will be drawn -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side Pillar representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side Pillar ? -->
							  <!-- Values are No ____ Accross side Pillar will not be drawn -->
							  <!--            Yes ___ Accross side Pillar will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <!--fin du noed EndView-->
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>ToBeDefined</std:strval>
						  </std:node>
					  </std:node>
				  </std:node>
				  <std:node name = "SideView">
					  <std:node name = "3DParameters">
						  <std:node name = "SingleLine">
							  <std:node name = "Draw">
								  <!-- Should it draw the SingleLine ? -->
								  <!-- Values are No ____ the Trace of the Beam will not be extracted -->
								  <!--            Yes ___ the Trace of the Beam will be extracted (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkMode">
								  <!-- What measurement mode should be applied while shrinking the Single Line ? -->
								  <!-- Values are Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
								  <!-- Values are Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
								  <std:enumval name = "DistanceMode">Absolute</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkValue">
								  <std:strval>10mm</std:strval>
							  </std:node>
						  </std:node>
						  <std:node name = "DoubleLine">
							  <std:node name = "Draw">
								  <!-- Should it draw the DoubleLine ? -->
								  <!-- Values are No ____ the 3DBeam will not be extracted -->
								  <!--            Yes ___ the 3DBeam will be extracted (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkMode">
								  <!-- What measurement mode should be applied while shrinking the DoubleLine ? -->
								  <!-- Values are Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
								  <!-- Values are Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
								  <std:enumval name = "DistanceMode">Relative</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkValue">
								  <std:strval>0.5</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side beams ? -->
							  <!-- Values are No ____ near side Pillar will not be drawn -->
							  <!--            Yes ___ near side Pillar will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Pillar representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side beams ? -->
							  <!-- Values are No ____ far side Pillar will not be drawn  -->
							  <!--            Yes ___ far side Pillar will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side beam representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud NearSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>ToBeDefined</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "SingleLine">
						  <std:node name = "ExtremitySymbol">
							  <std:node name = "Draw">
								  <!-- Should it draw arrowheads at ends of Beam ? -->
								  <!-- Values are No ____ no symbols representing the Beam ends will be drawn (** default **) -->
								  <!--            Yes ___ symbols representing Beam end will be used (see "EndSymbolDetailName" setting) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "MinimumLengthRatio">
								  <!-- Minimum length of Beam at which the end symbol will be displayed -->
								  <!-- Value is between 0 and 1.                                             -->
								  <!-- A Value of 0 will result in no end symbol being placed, while a value -->
								  <!-- of 1 will result in a display if the end symbol is smaller than the   -->
								  <!-- length of the Beam.  Default is .45                              -->
								  <std:floatval>.45</std:floatval>
							  </std:node>
							  <std:node name = "ReferenceScale">
								  <!-- The scale to set the End Symbol Detail to -->
								  <!-- Default value is 1.0  -->
								  <std:floatval>1.0</std:floatval>
							  </std:node>
							  <std:node name = "ChapterName">
								  <!-- The name of the chapter containing end symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
								  <!-- Default value is "Ends" -->
								  <std:strval>Ends</std:strval>
							  </std:node>
							  <std:node name = "DefaultExtremitySymbol">
								  <std:node name = "SymbolName">
									  <!-- The name of the detail within the catalog to instanciate for ends of Beam -->
									  <!-- Default value is "BlackFilledArrow_3x1.5" -->
									  <std:strval>BlackFilledArrow_3x1.5</std:strval>
								  </std:node>
							  </std:node>
							  <std:node name = "ExtremitySymbolByEndCutType">
								  <std:node name = "Draw">
									  <!-- Should the Beam end symbol be dependant on the end cut type ? -->
									  <!-- Values are No ____ the SymbolsAtEndsOfProfile option will always be used (** default **) -->
									  <!--            Yes ___ symbols will be chosen in following settings according to EndCut type -->
									  <std:enumval name = "YesNo">Yes</std:enumval>
								  </std:node>
								  <std:node name = "SNIPE">
									  <std:strval>NotFilledArrow_3x1.5</std:strval>
								  </std:node>
								  <std:node name = "WELD">
									  <std:strval>HalfArrow_3x1.5</std:strval>
								  </std:node>
								  <std:node name = "TRIM">
									  <std:strval>T-A49XH</std:strval>
								  </std:node>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "DoubleLine">
						  <std:node name = "ExtremitySymbol">
							  <std:node name = "Draw">
								  <!-- Should it draw arrowheads at ends of Beam ? -->
								  <!-- Values are No ____ no symbols representing the Beam ends will be drawn (** default **) -->
								  <!--            Yes ___ symbols representing Beam end will be used (see "EndSymbolDetailName" setting) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "MinimumLengthRatio">
								  <!-- Minimum length of Beam at which the end symbol will be displayed -->
								  <!-- Value is between 0 and 1.                                             -->
								  <!-- A Value of 0 will result in no end symbol being placed, while a value -->
								  <!-- of 1 will result in a display if the end symbol is smaller than the   -->
								  <!-- length of the Beam.  Default is .45                              -->
								  <std:floatval>.45</std:floatval>
							  </std:node>
							  <std:node name = "ReferenceScale">
								  <!-- The scale to set the Flange Orientation Detail to -->
								  <!-- Default value is 1.0  -->
								  <std:floatval>1.0</std:floatval>
							  </std:node>
							  <std:node name = "ChapterName">
								  <!-- The name of the chapter containing end symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
								  <!-- Default value is "Ends" -->
								  <std:strval>Ends</std:strval>
							  </std:node>
							  <std:node name = "ExtremitySymbolByEndCutType">
								  <std:node name = "SNIPE">
									  <std:strval>ec_45_degree</std:strval>
								  </std:node>
								  <std:node name = "WELD">
									  <std:strval>ec_60_degree</std:strval>
								  </std:node>
								  <std:node name = "TRIM">
									  <std:strval>ec_45_degree_dbl</std:strval>
								  </std:node>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "UserConnection">
						  <!-- Connection -->
						  <std:node name = "Draw">
							  <!-- Should it draw the UserConnection? -->
							  <!-- Values are No ____ the User Connection will not be extracted -->
							  <!--            Yes ___ the User Connection will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ConnectionDetail">
							  <std:node name = "ChapterName">
								  <std:strval>UserConnection</std:strval>
							  </std:node>
							  <std:node name = "SymbolName">
								  <std:strval>Column - 2 Beam</std:strval>
							  </std:node>
							  <std:node name = "ReferenceScale">
								  <std:floatval>1</std:floatval>
							  </std:node>
						  </std:node>
						  <std:node name = "AnnotationTextStyle">
							  <std:node name = "Draw">
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- ********* "Yes" causes inclusion of a leader -->
							  <std:node name = "ATS_AutoPosition">
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- ********* Non zero values cause inclusion of a leader -->
							  <std:node name = "ATS_CharacterOffset">
								  <std:intval>200</std:intval>
							  </std:node>
							  <!-- ********* ATS Attribute names, comma separated if more than one * -->
							  <std:node name = "ATS_Attribute">
								  <std:strval>sfm_userconnection_name</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <!--fin du noed SideView-->
				  </std:node>
				  <std:node name = "AnyView">
					  <std:node name = "3DParameters">
						  <std:node name = "SingleLine">
							  <std:node name = "Draw">
								  <!-- Should it draw the SingleLine ? -->
								  <!-- Values are No ____ the Trace of the Beam will not be extracted -->
								  <!--            Yes ___ the Trace of the Beam will be extracted (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkMode">
								  <!-- What measurement mode should be applied while shrinking the Single Line ? -->
								  <!-- Values are Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
								  <!-- Values are Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
								  <std:enumval name = "DistanceMode">Absolute</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkValue">
								  <std:strval>10mm</std:strval>
							  </std:node>
						  </std:node>
						  <std:node name = "DoubleLine">
							  <std:node name = "Draw">
								  <!-- Should it draw the DoubleLine ? -->
								  <!-- Values are No ____ the 3DBeam will not be extracted -->
								  <!--            Yes ___ the 3DBeam will be extracted (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkMode">
								  <!-- What measurement mode should be applied while shrinking the DoubleLine ? -->
								  <!-- Values are Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
								  <!-- Values are Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
								  <std:enumval name = "DistanceMode">Relative</std:enumval>
							  </std:node>
							  <std:node name = "ShrinkValue">
								  <std:strval>0.5</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side beams ? -->
							  <!-- Values are No ____ near side Pillar will not be drawn -->
							  <!--            Yes ___ near side Pillar will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Pillar representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side Pillar ? -->
							  <!-- Values are No ____ far side Pillar will not be drawn (** default **) -->
							  <!--            Yes ___ far side Pillar will be drawn -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side Pillar representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side Pillar ? -->
							  <!-- Values are No ____ Accross side Pillar will not be drawn -->
							  <!--            Yes ___ Accross side Pillar will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>ToBeDefined</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "UserConnection">
						  <!-- Connection -->
						  <std:node name = "Draw">
							  <!-- Should it draw the UserConnection? -->
							  <!-- Values are No ____ the User Connection will not be extracted -->
							  <!--            Yes ___ the User Connection will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ConnectionDetail">
							  <std:node name = "ChapterName">
								  <std:strval>UserConnection</std:strval>
							  </std:node>
							  <std:node name = "SymbolName">
								  <std:strval>Column - 2 Beam</std:strval>
							  </std:node>
							  <std:node name = "ReferenceScale">
								  <std:floatval>1</std:floatval>
							  </std:node>
						  </std:node>
						  <std:node name = "AnnotationTextStyle">
							  <std:node name = "Draw">
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- ********* "Yes" causes inclusion of a leader -->
							  <std:node name = "ATS_AutoPosition">
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- ********* Non zero values cause inclusion of a leader -->
							  <std:node name = "ATS_CharacterOffset">
								  <std:intval>200</std:intval>
							  </std:node>
							  <!-- ********* ATS Attribute names, comma separated if more than one * -->
							  <std:node name = "ATS_Attribute">
								  <std:strval>sfm_userconnection_name</std:strval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <!--fin du noed EndView-->
				  </std:node>
				  <!--fin du noed ViewType-->
			  </std:node>
			  <!-- fin du noeud Pillar-->
		  </std:node>
		  <!-- ********************************************************************************************* -->
		  <std:node name = "Plate">
			  <!--Shell subtype of plate.  We want to see ATS in AnyView -->
			  <std:node name = "Shell">
				  <std:node name = "ViewType">
					  <std:node name = "AnyView">
						  <std:node name = "AnnotationTextStyle">
							  <std:node name = "Draw">
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
						  </std:node>
					  </std:node>
				  </std:node>
			  </std:node>
			  <!-- PLATE -->
			  <std:node name = "Draw">
				  <!-- Should it draw the plate ? -->
				  <!-- Values are No ____ the plate will not be drawn  -->
				  <!--            Yes ___ the plate will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "GraphicReplacement">
				  <!-- Should it use the graphic replacement ? -->
				  <!-- Values are No ____ no Graphic Replacements will be used (ie. will project the 3D only) (** default **) -->
				  <!--      Yes ___ Graphic Replacements will be used -->
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "AngularTolerance">
				  <!-- Angular tolerance for to trigger this type of View in degrees -->
				  <!-- Default value is 15.0  -->
				  <std:floatval>2.0</std:floatval>
			  </std:node>
			  <std:node name = "LogicalViewGeneration">
				  <std:node name = "PropagationOnSupport">
					  <!-- Should it use the Propagation on SuperPlates ? -->
					  <!-- Values are No ____ no Propagation will be used (ie. will project the 3D only) (** default **) -->
					  <!--      Yes ___ Propagation will be used -->
					  <std:enumval name = "YesNo">Yes</std:enumval>
				  </std:node>
				  <std:node name = "MultiResult">
					  <!-- Should it draw the MultiResult? -->
					  <!-- Values are No ____ no MultiResult will be drawn(** default **) -->
					  <!--      Yes ___ MultiResult will be drawn -->
					  <std:enumval name = "YesNo">No</std:enumval>
				  </std:node>
				  <std:node name = "OffsetTolerance">
					  <!-- Offset value used to include or exclude objects using the same support with  -->
					  <!-- different offsets -->
					  <!-- Default value is 0.0 -->
					  <std:floatval>0.0</std:floatval>
				  </std:node>
			  </std:node>
			  <std:node name = "ViewType">
				  <std:node name = "SideView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud NearSide-->
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side Plate ? -->
							  <!-- Values are No ____ far side Plate will not be drawn -->
							  <!--            Yes ___ far side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side Plate representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noed FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side Plate ? -->
							  <!-- Values are No ____ Accross side Plate will not be drawn -->
							  <!--            Yes ___ Accross side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_plate_name</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "MaterialExtrusionSymbol">
						  <std:node name = "Draw">
							  <!-- Should it draw far side Plate ? -->
							  <!-- Values are No ____ far side Plate will not be drawn -->
							  <!--            Yes ___ far side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "MaterialExtrusionMode">
							  <!-- Values are 'Tick mark (true width)' __________ draw only the Tick Mark (see the TM_OffsetFromEndOfMember, and TM_Length settings) -->
							  <!--            'Throw orientation (symbolic)' ____ draw only the Material Throw Orientation (see the MTO_DetailName setting) -->
							  <!--            'Tick mark and throw orientation'__ draw both the Material Throw Orientation and the Tick Mark -->
							  <std:enumval name = "MaterialExtrusion">Throw orientation (symbolic)</std:enumval>
						  </std:node>
						  <std:node name = "SymbolLocation">
							  <std:enumval name = "ProfileLocation">Middle</std:enumval>
						  </std:node>
						  <std:node name = "MaterialThroughOrientationSymbol">
							  <std:node name = "ChapterName">
								  <!-- The name of the chapter containing MTO symbols within the Drawing Symbol Structure Catalog (refer to PRM file) -->
								  <!-- Default value is "MTOs" -->
								  <std:strval>MTOs</std:strval>
							  </std:node>
							  <std:node name = "SymbolName">
								  <!-- The name of the detail within the catalog to instanciate for Material Throw Orientation -->
								  <!-- Default value is "BlackFilledRectangle_5x1" -->
								  <!-- Important: this setting is used only when the MaterialThrowOrientation setting is set to 1 or 3 -->
								  <std:strval>BlackFilledRectangle_5x1_CTR</std:strval>
							  </std:node>
							  <std:node name = "ReferenceScale">
								  <!-- The scale to set the Flange Orientation Detail to -->
								  <!-- Default value is 1.0  -->
								  <std:floatval>1.0</std:floatval>
							  </std:node>
						  </std:node>
						  <std:node name = "TickMarkSymbol">
							  <std:node name = "Length">
								  <!-- The Tick Mark length -->
								  <!-- Default value is 5.0 millimeters -->
								  <std:floatval>5.0</std:floatval>
							  </std:node>
						  </std:node>
					  </std:node>
					  <std:node name = "SeamSymbol">
						  <!-- SeamLines Symbol -->
						  <std:node name = "Draw">
							  <!-- Should it draw the SeamLines Symbol? -->
							  <!-- Values are No ____ the Seam Lines Symbol will not be extracted -->
							  <!--            Yes ___ the Seam Lines Symbol will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <std:strval>Seam</std:strval>
						  </std:node>
						  <std:node name = "SymbolName">
							  <!-- The name of the detail within the catalog to instanciate for Seam Line Symbol -->
							  <!-- Default value is "Default_Seam_Symbol" -->
							  <std:strval>Default_Seam_Symbol</std:strval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- Scale of Seam symbol -->
							  <std:floatval>100.0</std:floatval>
						  </std:node>
						  <std:node name = "Orientation">
							  <!-- Orientation of Seam Symbol -->
							  <!-- Values are normal __ The Seam Symbol indicate Left to Right and Top to Bottom -->
							  <!-- Values are invert __ The Seam Symbol indicate Right to Left and Bottom to Top -->
							  <std:strval>normal</std:strval>
						  </std:node>
						  <std:node name = "MinimumDistance">
							  <!-- Do not draw Seam symbol when line's length less than Minimum Distance value -->
							  <!-- Unit based on milimeter (mm) -->
							  <std:intval>100</std:intval>
						  </std:node>
						  <std:node name = "Density">
							  <!-- Number of Drawing Seam Symbol each 1 meter -->
							  <!-- Density Is not used in SideView mode -->
							  <std:intval>1</std:intval>
						  </std:node>
					  </std:node>
					  <std:node name = "PlanningBreakSymbol">
						  <!-- PlanningBreakLines Symbol -->
						  <std:node name = "Draw">
							  <!-- Should it draw the PlanningBreak Symbol? -->
							  <!-- Values are No ____ the PlanningBreak Symbol will not be extracted -->
							  <!--            Yes ___ the PlanningBreak Symbol will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <std:strval>PlanningBreak</std:strval>
						  </std:node>
						  <std:node name = "SymbolName">
							  <!-- The name of the detail within the catalog to instanciate for PlanningBreak Line Symbol -->
							  <!-- Default value is "Default_PlanningBreak_Symbol" -->
							  <std:strval>Default_PlanningBreak_Symbol</std:strval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- Scale of PlanningBreak symbol -->
							  <std:floatval>100.0</std:floatval>
						  </std:node>
						  <std:node name = "Orientation">
							  <!-- Orientation of Planning Break Symbol -->
							  <!-- Values are normal __ The Planning Break Symbol indicate Left to Right and Top to Bottom -->
							  <!-- Values are invert __ The Planning Break Symbol indicate Right to Left and Bottom to Top -->
							  <std:strval>normal</std:strval>
						  </std:node>
						  <std:node name = "MinimumDistance">
							  <!-- Do not draw Planning Break symbol when line's length less than Minimum Distance value -->
							  <!-- Unit based on milimeter (mm) -->
							  <std:intval>100</std:intval>
						  </std:node>
						  <std:node name = "Density">
							  <!-- Number of Drawing Planning Break Symbol each 1 meter -->
							  <!-- Density Is not used in SideView mode -->
							  <std:intval>1</std:intval>
						  </std:node>
					  </std:node>
					  <!--fin du noed SideView-->
				  </std:node>
				  <std:node name = "AnyView">
					  <std:node name = "NearSide">
						  <std:node name = "Draw">
							  <!-- Should it draw near side Plate ? -->
							  <!-- Values are No ____ near side Plate will not be drawn -->
							  <!--            Yes ___ near side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "1" maxval = "63">
							  <!-- The line type index to use for near side Plate representation -->
							  <!-- Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud NearSide-->
					  </std:node>
					  <std:node name = "FarSide">
						  <std:node name = "Draw">
							  <!-- Should it draw far side Plate ? -->
							  <!-- Values are No ____ far side Plate will not be drawn -->
							  <!--            Yes ___ far side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side Plate representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noed FarSide-->
					  </std:node>
					  <std:node name = "AccrossSide">
						  <std:node name = "Draw">
							  <!-- Should it draw Accross side Plate ? -->
							  <!-- Values are No ____ Accross side Plate will not be drawn -->
							  <!--            Yes ___ Accross side Plate will be drawn (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "Linetype" minval = "4" maxval = "63">
							  <!-- The line type index to use for far side stiffener representation -->
							  <!-- Default value is 4 (phantom line type) -->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!-- The thickness of the GR representation -->
							  <!-- Default value is 2 -->
							  <std:intval>2</std:intval>
						  </std:node>
						  <std:node name = "LineColor">
							  <std:node name = "3DInheritance">
								  <!-- Should the LineColor inherit the color from the 3d object ? -->
								  <!-- Values are No ____ Color not inherited -->
								  <!--            Yes ___ Color is inherited (** default **) -->
								  <std:enumval name = "YesNo">Yes</std:enumval>
							  </std:node>
							  <!-- Color to use if 3DInheritance is No ? -->
							  <std:node name = "Color">
								  <std:colorval>0 0 0</std:colorval>
							  </std:node>
						  </std:node>
						  <!--fin du noeud AccrossSide-->
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_plate_name</std:strval>
						  </std:node>
					  </std:node>
					  <std:node name = "SlotContour">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
					  </std:node>
					  <std:node name = "SeamSymbol">
						  <!-- SeamLines Symbol -->
						  <std:node name = "Draw">
							  <!-- Should it draw the SeamLines Symbol? -->
							  <!-- Values are No ____ the Seam Lines Symbol will not be extracted -->
							  <!--            Yes ___ the Seam Lines Symbol will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <std:strval>Seam</std:strval>
						  </std:node>
						  <std:node name = "SymbolName">
							  <!-- The name of the detail within the catalog to instanciate for Seam Line Symbol -->
							  <!-- Default value is "Default_Seam_Symbol" -->
							  <std:strval>Default_Seam_Symbol</std:strval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- Scale of Seam symbol -->
							  <std:floatval>100.0</std:floatval>
						  </std:node>
						  <std:node name = "Orientation">
							  <!-- Orientation of Seam Symbol -->
							  <!-- Values are normal __ The Seam Symbol indicate Left to Right and Top to Bottom -->
							  <!-- Values are invert __ The Seam Symbol indicate Right to Left and Bottom to Top -->
							  <std:strval>normal</std:strval>
						  </std:node>
						  <std:node name = "MinimumDistance">
							  <!-- Do not draw Seam symbol when line's length less than Minimum Distance value -->
							  <!-- Unit based on milimeter (mm) -->
							  <std:intval>100</std:intval>
						  </std:node>
						  <std:node name = "Density">
							  <!-- Number of Drawing Seam Symbol each 1 meter -->
							  <!-- Density Is not used in SideView mode -->
							  <std:intval>1</std:intval>
						  </std:node>
					  </std:node>
					  <std:node name = "PlanningBreakSymbol">
						  <!-- PlanningBreakLines Symbol -->
						  <std:node name = "Draw">
							  <!-- Should it draw the PlanningBreak Symbol? -->
							  <!-- Values are No ____ the PlanningBreak Symbol will not be extracted -->
							  <!--            Yes ___ the PlanningBreak Symbol will be extracted (with or without GR - see "GraphicReplacement" setting) (** default **) -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "ChapterName">
							  <std:strval>PlanningBreak</std:strval>
						  </std:node>
						  <std:node name = "SymbolName">
							  <!-- The name of the detail within the catalog to instanciate for PlanningBreak Line Symbol -->
							  <!-- Default value is "Default_PlanningBreak_Symbol" -->
							  <std:strval>Default_PlanningBreak_Symbol</std:strval>
						  </std:node>
						  <std:node name = "ReferenceScale">
							  <!-- Scale of PlanningBreak symbol -->
							  <std:floatval>100.0</std:floatval>
						  </std:node>
						  <std:node name = "Orientation">
							  <!-- Orientation of Planning Break Symbol -->
							  <!-- Values are normal __ The Planning Break Symbol indicate Left to Right and Top to Bottom -->
							  <!-- Values are invert __ The Planning Break Symbol indicate Right to Left and Bottom to Top -->
							  <std:strval>normal</std:strval>
						  </std:node>
						  <std:node name = "MinimumDistance">
							  <!-- Do not draw Planning Break symbol when line's length less than Minimum Distance value -->
							  <!-- Unit based on milimeter (mm) -->
							  <std:intval>100</std:intval>
						  </std:node>
						  <std:node name = "Density">
							  <!-- Number of Drawing Planning Break Symbol each 1 meter -->
							  <!-- Density Is not used in SideView mode -->
							  <std:intval>1</std:intval>
						  </std:node>
					  </std:node>
					  <std:node name = "Flange">
						  <!-- In AnyView, Flange is represented by GR Line -->
						  <std:node name = "Draw">
							  <!-- Should it draw GR Line? -->
							  <!-- Value is No ____ No GR Line representing -->
							  <!-- Value is Yes ___ GR Line eepresenting 		-->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "OffsetMode">
							  <!-- What measurement mode should be applied while drawing the GR Line ? -->
							  <!-- Value is Relative ____ a value between 0 and 1 is required. No magnitude needed. -->
							  <!-- Value is Absolute ____ the value must include a magniture or the model default (mm) is applied. -->
							  <std:enumval name = "DistanceMode">Absolute</std:enumval>
						  </std:node>
						  <std:node name = "OffsetValue">
							  <!-- When OffsetMode is Relative, OffsetValue must be between 0 and 1 -->
							  <!-- When OffsetValue is out of boundary, OffsetValue is applied 0 -->
							  <!-- When OffsetMode is Relative, OffsetValue has to be real length in the 3D -->
							  <!-- Unit of OffsetValue must be (mm) -->
							  <std:strval>100</std:strval>
						  </std:node>
						  <std:node name = "LineType" minval = "1" maxval = "63">
							  <!--  The line type index to use for AnyView Flange Symbolic representation -->
							  <!--  Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <!--final node of Flange-->
					  </std:node>
					  <!--fin du noed AnyView-->
				  </std:node>
				  <!--fin du noed ViewType-->
			  </std:node>
			  <!--fin du noeud Plate-->
		  </std:node>
		  <!-- ********************************************************************************************* -->
		  <std:node name = "Opening">
			  <std:node name = "GraphicReplacement">
				  <std:enumval name = "YesNo">Yes</std:enumval>
			  </std:node>
			  <std:node name = "ViewType">
				  <!--  The View Type is inherited from the Plate -->
				  <std:node name = "SideView">
					  <std:node name = "Draw">
						  <!--  Should it draw SideView Opening ?  -->
						  <!--  Values are No ____ SideView Opening will not be drawn -->
						  <!--             Yes ___ SideView Opening will be drawn (** default **) -->
						  <std:enumval name = "YesNo">Yes</std:enumval>
					  </std:node>
					  <std:node name = "LineType" minval = "1" maxval = "63">
						  <!--  The line type index to use for SideView Opening representation -->
						  <!--  Default value is 1 (solid line type) -->
						  <std:intval>1</std:intval>
					  </std:node>
					  <std:node name = "LineThickness" minval = "1">
						  <!--  The thickness of the GR representation -->
						  <!--  Default value is 2 -->
						  <std:intval>2</std:intval>
					  </std:node>
					  <std:node name = "ButterflyThickness">
						  <std:floatval>5.0</std:floatval>
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_opening_name</std:strval>
						  </std:node>
					  </std:node>
				  </std:node>
				  <std:node name = "AnyView">
					  <std:node name = "DashX">
						  <std:node name = "Draw">
							  <!--  Should it draw DashX Opening ? -->
							  <!--  Values are No ____ DashX Opening will not be drawn -->
							  <!--             Yes ___ DashX Opening will be drawn (** default **)  -->
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <std:node name = "LineType" minval = "1" maxval = "63">
							  <!--  The line type index to use for SideView Opening representation -->
							  <!--  Default value is 4 (phantom line type)-->
							  <std:intval>4</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!--  The thickness of the GR representation -->
							  <!--  Default value is 2 -->
							  <std:intval>1</std:intval>
						  </std:node>
					  </std:node>
					  <std:node name = "ShortAxis">
						  <std:node name = "Draw">
							  <!--  Should it draw ShortAxis Opening ? -->
							  <!--  Values are No ____ ShortAxis Opening will not be drawn -->
							  <!--             Yes ___ ShortAxis Opening will be drawn (** default **) -->
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <std:node name = "LineType" minval = "1" maxval = "63">
							  <!--  The line type index to use for Opening centerline representation -->
							  <!--  Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!--  The thickness of the GR representation -->
							  <!--  Default value is 2 -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "AxisType">
							  <!--  Setting for Oblong openings. Specify "Double" or "Single" Axis-->
							  <!--  Default value is "Double" -->
							  <std:enumval name = "AxisTypeEnum">Double</std:enumval>
						  </std:node>
					  </std:node>
					  <std:node name = "LongAxis">
						  <std:node name = "Draw">
							  <!--  Should it draw LongAxis Opening ? -->
							  <!--  Values are No ____ LongAxis Opening will not be drawn-->
							  <!--             Yes ___ LongAxis Opening will be drawn (** default **)-->
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <std:node name = "LineType" minval = "1" maxval = "63">
							  <!--  The line type index to use for Opening centerline representation -->
							  <!--  Default value is 1 (solid line type) -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "LineThickness" minval = "1">
							  <!--  The thickness of the GR representation-->
							  <!--  Default value is 2 -->
							  <std:intval>1</std:intval>
						  </std:node>
						  <std:node name = "AxisType">
							  <!--  Setting for Oblong openings. Specify "Double" or "Single" Axis-->
							  <!--  Default value is "Double" -->
							  <std:enumval name = "AxisTypeEnum">Double</std:enumval>
						  </std:node>
					  </std:node>
					  <std:node name = "AnnotationTextStyle">
						  <std:node name = "Draw">
							  <std:enumval name = "YesNo">Yes</std:enumval>
						  </std:node>
						  <!-- ********* "Yes" causes inclusion of a leader -->
						  <std:node name = "ATS_AutoPosition">
							  <std:enumval name = "YesNo">No</std:enumval>
						  </std:node>
						  <!-- ********* Non zero values cause inclusion of a leader -->
						  <std:node name = "ATS_CharacterOffset">
							  <std:intval>0</std:intval>
						  </std:node>
						  <!-- ********* ATS Attribute names, comma separated if more than one * -->
						  <std:node name = "ATS_Attribute">
							  <std:strval>sfm_opening_name</std:strval>
						  </std:node>
					  </std:node>
				  </std:node>
				  <!-- fin du noed ViewType-->
			  </std:node>
			  <!-- fin du noeud Opening-->
		  </std:node>
	  </std:node>
	  <!--end Structure-->
  </std:node>
<!-- ******************************************************************* -->
<!-- *         END APPLICATION - Structure                             * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         START   APPLICATION - Automotive BiW Fastening          * -->
<!-- ******************************************************************* -->
   <std:node name="Automotive BiW Fastening">
<!--Automotive BiW Fastening Application-->
      <std:node name="Fasteners">
<!--Fasteners Category-->
         <std:node name="Spot Fasteners">
<!--Spot Fasteners Category-->
            <std:node name="Generate">
<!--Extraction Parameters-->
               <std:node name="Extract Location">
<!--Extraction Flag for Spot Fasteners (Yes/No)-->
<!--Default Value=Yes-->
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Angular Tolerance">
<!--Maximum Angle between Spot Normal Vector and View Background Plane-->
<!--Default Value=90.0-->
                  <std:floatval>90.0</std:floatval>
               </std:node>

               <std:node name="Include View Reverse Direction">
<!--Reverse Direction for Spot Fasteners (Yes/No)-->
<!--Default Value=No-->
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>
            </std:node>
         </std:node>
      </std:node>
   </std:node>

<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - Automotive BiW Fastening            * -->
<!-- ******************************************************************* -->
<!-- -->
<!-- ******************************************************************* -->
<!-- *         START APPLICATION - SHEETMETAL DESIGN                   * -->
<!-- ******************************************************************* -->
   <std:node name="SheetMetal">
      <std:node name="SheetMetalDesign">
         <std:node name="Bend">
            <std:node name="Axis">
               <std:node name="Upward">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>255 0 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>4</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="Downward">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>0 0 255</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>4</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="Annotations">
                  <std:node name="Angle">
                     <std:node name="Visible">
                        <std:enumval name="YesNo">No</std:enumval>
                     </std:node>

                     <std:node name="Prefix">
                        <std:strval>Angle</std:strval>
                     </std:node>

                     <std:node name="Type">
                        <std:enumval name="SheetMetalAngleType">Internal</std:enumval>
                     </std:node>
                  </std:node>

                  <std:node name="Radius">
                     <std:node name="Visible">
                        <std:enumval name="YesNo">No</std:enumval>
                     </std:node>

                     <std:node name="Prefix">
                        <std:strval>Radius</std:strval>
                     </std:node>
                  </std:node>

                  <std:node name="UpDownStatus">
                     <std:node name="Visible">
                        <std:enumval name="YesNo">No</std:enumval>
                     </std:node>

                     <std:node name="UpString">
                        <std:strval>Up</std:strval>
                     </std:node>

                     <std:node name="DownString">
                        <std:strval>Down</std:strval>
                     </std:node>
                  </std:node>
               </std:node>
            </std:node>

            <std:node name="BTLs">
               <std:node name="Visible">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>

               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

               <std:node name="Linetype">
                  <std:intval>2</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>1</std:intval>
               </std:node>

               <std:node name="BrokenDisplay">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="BreakingLength">
                  <std:strval>10mm</std:strval>
               </std:node>

               <std:node name="Clearance">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="ClearanceLength">
                  <std:strval>2mm</std:strval>
               </std:node>
            </std:node>

						<std:node name="IML">
							 <std:node name="Visible">
								  <std:enumval name="YesNo">No</std:enumval>
							 </std:node>

							 <std:node name="Color">
								  <std:colorval>0 255 0</std:colorval>
							 </std:node>

							 <std:node name="Linetype">
								  <std:intval>5</std:intval>
							 </std:node>

							 <std:node name="Thickness">
								  <std:intval>2</std:intval>
							 </std:node>

               <std:node name="BrokenDisplay">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="BreakingLength">
                  <std:strval>10mm</std:strval>
               </std:node>

               <std:node name="Clearance">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="ClearanceLength">
                  <std:strval>2mm</std:strval>
               </std:node>
						</std:node>

					  <std:node name="OML">
						   <std:node name="Visible">
							    <std:enumval name="YesNo">No</std:enumval>
						   </std:node>

						   <std:node name="Color">
							    <std:colorval>255 255 0</std:colorval>
						   </std:node>

						   <std:node name="Linetype">
							    <std:intval>5</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>2</std:intval>
               </std:node>

               <std:node name="BrokenDisplay">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="BreakingLength">
                  <std:strval>10mm</std:strval>
               </std:node>

               <std:node name="Clearance">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="ClearanceLength">
                  <std:strval>2mm</std:strval>
               </std:node>
					  </std:node>

					  <std:node name="OML_2">
						   <std:node name="Visible">
							    <std:enumval name="YesNo">No</std:enumval>
						   </std:node>

						   <std:node name="Color">
							    <std:colorval>0 255 128</std:colorval>
						   </std:node>

						   <std:node name="Linetype">
                  <std:intval>5</std:intval>
               </std:node>

               <std:node name="Thickness">
                  <std:intval>2</std:intval>
               </std:node>

               <std:node name="BrokenDisplay">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="BreakingLength">
                  <std:strval>10mm</std:strval>
               </std:node>

               <std:node name="Clearance">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="ClearanceLength">
                  <std:strval>2mm</std:strval>
               </std:node>
					  </std:node>

					  <std:node name="CLB">
						   <std:node name="Visible">
							    <std:enumval name="YesNo">No</std:enumval>
						   </std:node>

						   <std:node name="Color">
							    <std:colorval>0 128 128</std:colorval>
						   </std:node>

						   <std:node name="Linetype">
							    <std:intval>5</std:intval>
						   </std:node>

						   <std:node name="Thickness">
							    <std:intval>2</std:intval>
						   </std:node>

               <std:node name="BrokenDisplay">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="BreakingLength">
                  <std:strval>10mm</std:strval>
               </std:node>

               <std:node name="Clearance">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

               <std:node name="ClearanceLength">
                  <std:strval>2mm</std:strval>
               </std:node>
            </std:node>					 
         </std:node>

         <std:node name="Stamp">
            <std:node name="AppropriateLines">
               <std:node name="Upward">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>255 128 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="Downward">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>128 0 128</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>
            </std:node>

            <std:node name="Annotations">
               <std:node name="StandardName">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">No</std:enumval>
                  </std:node>

                  <std:node name="Prefix">
                     <std:strval>Standard name</std:strval>
                  </std:node>
               </std:node>
            </std:node>
         </std:node>

         <std:node name="Unfolded Curves">
            <std:node name="Characteristic elements">
               <std:node name="Top">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>255 0 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="Bottom">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>0 0 255</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>
            </std:node>

            <std:node name="Engraving">
               <std:node name="Top">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>255 128 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="Bottom">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>128 0 128</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>
            </std:node>

            <std:node name="Marking">
               <std:node name="Top">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>0 0 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>

               <std:node name="Bottom">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>

                  <std:node name="Color">
                     <std:colorval>255 255 0</std:colorval>
                  </std:node>

                  <std:node name="Linetype">
                     <std:intval>2</std:intval>
                  </std:node>

                  <std:node name="Thickness">
                     <std:intval>1</std:intval>
                  </std:node>
               </std:node>
            </std:node>

            <std:node name="User Defined">
               <std:node name="SubType_1">
                  <std:node name="Top">
                     <std:node name="Visible">
                       <std:enumval name="YesNo">Yes</std:enumval>
                     </std:node>

                     <std:node name="Color">
                       <std:colorval>0 255 0</std:colorval>
                     </std:node>

                     <std:node name="Linetype">
                       <std:intval>2</std:intval>
                     </std:node>

                     <std:node name="Thickness">
                       <std:intval>1</std:intval>
                     </std:node>
                  </std:node>

                  <std:node name="Bottom">
                     <std:node name="Visible">
                       <std:enumval name="YesNo">Yes</std:enumval>
                     </std:node>

                     <std:node name="Color">
                       <std:colorval>150 0 100</std:colorval>
                     </std:node>

                     <std:node name="Linetype">
                       <std:intval>2</std:intval>
                     </std:node>

                     <std:node name="Thickness">
                       <std:intval>1</std:intval>
                     </std:node>
                  </std:node>
               </std:node>
            </std:node>
         </std:node>
      </std:node>
   </std:node>

<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - SHEETMETAL DESIGN                   * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         START APPLICATION - STRUCTURAL PACKAGE DESIGN           * -->
<!-- ******************************************************************* -->
  <std:node name="StructuralPackageDesign">
    <std:node name="Fold">

      <std:node name="Crease">
        <std:node name="Visible">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 255</std:colorval>
        </std:node>
        <std:node name="Linetype">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="Thickness">
          <std:intval>2</std:intval>
        </std:node>
      </std:node>

      <std:node name="CutAndCrease">
        <std:node name="Visible">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
        <std:node name="Crease">
          <std:node name="Color">
            <std:colorval>0 0 255</std:colorval>
          </std:node>
          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="Thickness">
            <std:intval>2</std:intval>
          </std:node>
        </std:node>
        <std:node name="Cut">
          <std:node name="Color">
            <std:colorval>255 0 0</std:colorval>
          </std:node>
          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="Thickness">
            <std:intval>2</std:intval>
          </std:node>
        </std:node>
      </std:node>

      <std:node name="CreaseAndPerforation">
        <std:node name="Visible">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
        <std:node name="Crease">
          <std:node name="Color">
            <std:colorval>0 0 255</std:colorval>
          </std:node>
          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="Thickness">
            <std:intval>2</std:intval>
          </std:node>
        </std:node>
        <std:node name="Cut">
          <std:node name="Color">
            <std:colorval>255 0 0</std:colorval>
          </std:node>
          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="Thickness">
            <std:intval>2</std:intval>
          </std:node>
        </std:node>
      </std:node>

      <std:node name="InversedCrease">
        <std:node name="Visible">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
        <std:node name="Creases">
          <std:node name="Color">
            <std:colorval>0 0 0</std:colorval>
          </std:node>
          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="Thickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="FoldAxis">
          <std:node name="Visible">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="Color">
            <std:colorval>0 0 0</std:colorval>
          </std:node>
          <std:node name="Linetype">
            <std:intval>3</std:intval>
          </std:node>
          <std:node name="Thickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
      </std:node>

      <std:node name="Perforation">
        <std:node name="Visible">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
        <std:node name="Color">
          <std:colorval>255 0 0</std:colorval>
        </std:node>
        <std:node name="Linetype">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="Thickness">
          <std:intval>2</std:intval>
        </std:node>
      </std:node>

      <std:node name="Slit">
        <std:node name="Visible">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 255 255</std:colorval>
        </std:node>
        <std:node name="Linetype">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="Thickness">
          <std:intval>2</std:intval>
        </std:node>
      </std:node>

    </std:node>

    <std:node name="ThickCutout">
      <std:node name="Visible">
        <std:enumval name="YesNo">Yes</std:enumval>
      </std:node>
      <std:node name="Color">
        <std:colorval>255 0 0</std:colorval>
      </std:node>
      <std:node name="Linetype">
        <std:intval>1</std:intval>
      </std:node>
      <std:node name="Thickness">
        <std:intval>2</std:intval>
      </std:node>
    </std:node>

    <std:node name="UnfoldedCurves">
      <std:node name="CharacteristicElements">
        <std:node name="PrintedSide">
          <std:node name="Visible">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>

          <std:node name="Color">
            <std:colorval>0 255 0</std:colorval>
          </std:node>

          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>

          <std:node name="Thickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>

        <std:node name="InternalSide">
          <std:node name="Visible">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>

          <std:node name="Color">
            <std:colorval>0 128 0</std:colorval>
          </std:node>

          <std:node name="Linetype">
            <std:intval>1</std:intval>
          </std:node>

          <std:node name="Thickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
      </std:node>
    </std:node>

    <std:node name="BoundingBox">
      <std:node name="Visible">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Color">
        <std:colorval>0 255 0</std:colorval>
      </std:node>
      <std:node name="Linetype">
        <std:intval>1</std:intval>
      </std:node>
      <std:node name="Thickness">
        <std:intval>2</std:intval>
      </std:node>
      <std:node name="SegmentLength">
        <std:strval>10mm</std:strval>
      </std:node>
    </std:node>

    <std:node name="GrainDirection">
      <std:node name="Visible">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Color">
        <std:colorval>0 255 0</std:colorval>
      </std:node>
      <std:node name="Linetype">
        <std:intval>1</std:intval>
      </std:node>
      <std:node name="Thickness">
        <std:intval>2</std:intval>
      </std:node>
      <std:node name="Annotation">
        <std:node name="Visible">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Text">
          <std:strval>Grain direction</std:strval>
        </std:node>
      </std:node>
    </std:node>
  </std:node>

<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - STRUCTURAL PACKAGE DESIGN           * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         START APPLICATION - ELECTRICAL                   * -->
<!-- ******************************************************************* -->
  <std:node name="Electrical">
    <std:node name="Segment">
      <std:node name="Representation">
        <std:node name="Type">
          <std:enumval name="ElecGraphicRepresentation">DoubleLine</std:enumval>
        </std:node>
        <std:node name="LineType">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="LineThickness">
          <std:intval>1</std:intval>
        </std:node>
      </std:node>

      <std:node name="Text">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>

        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>

        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>

      <std:node name="SupportSection">

        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>

        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>

        <std:node name="Numbering">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

      </std:node>

      <std:node name="JunctionSection">

        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>

        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
        <std:node name="Numbering">
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

      </std:node>

      <std:node name="JunctionSymbol">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>

        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>

        <std:node name="SymbolName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
      <!-- *         New Node (CuttingSymbol)     * -->
      <std:node name="CuttingSymbol">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>
        <std:node name="SymbolName">
          <std:strval></std:strval>
        </std:node>
      </std:node>

    </std:node>

    <std:node name="Protection">
      <std:node name="Adaptive">
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicRepresentation">SingleLine</std:enumval>
          </std:node>
          <std:node name="LineThickness">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ThicknessValue">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>

        <std:node name="Filling">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Keyword">
            <std:strval>No</std:strval>
          </std:node>
        </std:node>

        <std:node name="2DdetailOnExtremities">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="Coefficient">
            <std:floatval>1.1</std:floatval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
        </std:node>

        <std:node name="InformationTable">
        <std:node name="Text">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>

          <std:node name="TextTemplateName">
            <std:strval></std:strval>
          </std:node>
          
          <std:node name="LeaderPosition">
              <std:enumval name="LeaderPosition">ProtectionCenter</std:enumval>
            </std:node>
          </std:node>
          <std:node name="Symbol">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="PositionInInformationTable">
              <std:enumval name="ElecPositionInInformationTable">Bottom</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
        </std:node>
      </std:node>

      </std:node>

      <std:node name="FixedDiameter">
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicRepresentation">SingleLine</std:enumval>
          </std:node>
          <std:node name="LineThickness">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ThicknessValue">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>

        <std:node name="Filling">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Keyword">
            <std:strval>No</std:strval>
          </std:node>
        </std:node>

        <std:node name="2DdetailOnExtremities">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="Coefficient">
            <std:floatval>1.1</std:floatval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
        </std:node>

        <std:node name="InformationTable">
        <std:node name="Text">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>

          <std:node name="TextTemplateName">
            <std:strval></std:strval>
          </std:node>
            <std:node name="LeaderPosition">
              <std:enumval name="LeaderPosition">ProtectionCenter</std:enumval>
        </std:node>
      </std:node>
          <std:node name="Symbol">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="PositionInInformationTable">
              <std:enumval name="ElecPositionInInformationTable">Bottom</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
          </std:node>
        </std:node>
        
      </std:node>

      <std:node name="Tape">
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineThickness">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ThicknessValue">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>

         <std:node name="Filling">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Keyword">
            <std:strval>No</std:strval>
          </std:node>
        </std:node>

        <std:node name="2DdetailOnExtremities">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="Coefficient">
            <std:floatval>1.1</std:floatval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
        </std:node>

        <std:node name="InformationTable">
        <std:node name="Text">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>

          <std:node name="TextTemplateName">
            <std:strval></std:strval>
          </std:node>
            <std:node name="LeaderPosition">
              <std:enumval name="LeaderPosition">ProtectionCenter</std:enumval>
        </std:node>
      </std:node>
          <std:node name="Symbol">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="PositionInInformationTable">
              <std:enumval name="ElecPositionInInformationTable">Bottom</std:enumval>
        </std:node>
            <std:node name="CatalogName">
              <std:strval>Catalog_Symbols</std:strval>
            </std:node>
          </std:node>
        </std:node>
        
      </std:node>

      <std:node name="CorrugatedTube">
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineThickness">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ThicknessValue">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>

        <std:node name="Filling">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Keyword">
            <std:strval>No</std:strval>
          </std:node>
        </std:node>

        <std:node name="2DdetailOnExtremities">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="Coefficient">
            <std:floatval>1.1</std:floatval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
        </std:node>

        <std:node name="InformationTable">
        <std:node name="Text">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>

          <std:node name="TextTemplateName">
            <std:strval></std:strval>
          </std:node>
            <std:node name="LeaderPosition">
              <std:enumval name="LeaderPosition">ProtectionCenter</std:enumval>
        </std:node>
      </std:node>
          <std:node name="Symbol">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="PositionInInformationTable">
              <std:enumval name="ElecPositionInInformationTable">Bottom</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
          </std:node>
        </std:node>
      </std:node>

      <std:node name="3DOrientationAngle">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
      </std:node>
    </std:node>

    <std:node name="Device">
      <std:node name="SingleInsertConnector">
        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
            <std:strval></std:strval>
          </std:node>
        </std:node>

        <!-- **         New Node (InformationTable) replacement of (AutomaticGeneration)    * -->
        <std:node name="InformationTable">
          <!-- *        New Node (Properties)     * -->
          <std:node name="Properties">
            <!-- *         New Node (RelativePoisitionToRepresentation) to define delative position w.r.t represenation    * -->
            <std:node name="RelativePositionToRepresentation">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (VerticalCellMargin)     * -->
            <std:node name="VerticalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (HorizontalCellMargin)     * -->
            <std:node name="HorizontalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
          </std:node>
          <!-- *         New Node (Header)     * -->
          <std:node name="Header">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>
          <!-- *         New Node (Footer)     * -->
          <std:node name="Footer">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>

            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>
          <!-- *         New Node (ConnectorTable)     * -->
          <std:node name="ConnectorTable">
            <!-- *        New Node (Properties)     * -->
            <std:node name="Properties">
              <std:node name="Generation">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>
              <!-- *         Node Modification(GenerateHeader)     * -->
              <std:node name="GenerateHeader">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>

              <!-- *         New Node (TableSplit)     * -->
              <std:node name="TableSplit">
                <std:intval>0</std:intval>
              </std:node>

              <std:node name="SpaceBetweenTwoSplit">
                <std:intval>10</std:intval>
              </std:node>
              <std:node name="SplitOption">
                <std:enumval name="ElecSplitOption">Horizontal</std:enumval>
              </std:node>
              <std:node name="CellMargin">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="DisplayUnit">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>

              <std:node name="Sorting">
                <std:enumval name="ElecSorting">Ascending</std:enumval>
              </std:node>

              <std:node name="DisplayEmptyCavity">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>

              <std:node name="MergeDuplicateCavity">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
            </std:node>

            <std:node name="AttributeOrder">
              <std:node name="Column1">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column2">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column3">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column4">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column5">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column6">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column7">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column8">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column9">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column10">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column11">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column12">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column13">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column14">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column15">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column16">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column17">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column18">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column19">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column20">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column21">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column22">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column23">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
            </std:node>

            <std:node name="AdditionalAttributes">
              <std:node name="Generation">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
              <std:node name="TableName">
                <std:strval></std:strval>
              </std:node>
              <std:node name="AttributeName">
                <std:strval></std:strval>
              </std:node>
            </std:node>
            
          </std:node>

          <!-- *         New Node (PinMap)     * -->
          <std:node name="PinMap">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="PositionInInformationTable">
              <std:enumval name="ElecPositionInInformationTable">Top</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
          </std:node>



        </std:node>
      </std:node>

      <std:node name="GroundStud">

        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
              <std:strval></std:strval>
          </std:node>
        </std:node>

        <!-- **         New Node (InformationTable) replacement of (AutomaticGeneration)    * -->
        <std:node name="InformationTable">
          <!-- *        New Node (Properties)     * -->
          <std:node name="Properties">

            <!-- *         New Node (RelativePoisitionToRepresentation) to define delative position w.r.t represenation    * -->
            <std:node name="RelativePositionToRepresentation">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (VerticalCellMargin)     * -->
            <std:node name="VerticalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (HorizontalCellMargin)     * -->
            <std:node name="HorizontalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
          </std:node>

          <!-- *         New Node (Header)     * -->
          <std:node name="Header">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>

          <!-- *         New Node (Footer)     * -->
          <std:node name="Footer">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>

            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>

            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>

            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
            
          </std:node>

          <!-- *         New Node (ConnectorTable)     * -->

          <std:node name="ConnectorTable">

            <!-- *        New Node (Properties)     * -->
            <std:node name="Properties">
              <std:node name="Generation">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>
              <!-- *         Node Modification(GenerateHeader)     * -->
              <std:node name="GenerateHeader">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
            
              <!-- *         New Node (TableSplit)     * -->
              <std:node name="TableSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="SpaceBetweenTwoSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="CellMargin">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="DisplayUnit">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>

              <std:node name="Sorting">
                <std:enumval name="ElecSorting">Ascending</std:enumval>
              </std:node>

              <std:node name="DisplayEmptyCavity">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>

              <std:node name="MergeDuplicateCavity">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
            </std:node>

            <std:node name="AttributeOrder">
              <std:node name="Column1">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column2">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column3">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column4">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column5">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column6">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column7">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column8">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column9">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column10">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column11">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column12">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column13">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column14">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column15">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column16">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column17">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column18">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column19">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column20">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column21">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column22">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column23">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
            </std:node>
          </std:node>

        </std:node>

      </std:node>

      <std:node name="TerminalStrip">

        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
             <std:strval></std:strval>
          </std:node>
        </std:node>
        <!-- **         New Node (InformationTable) replacement of (AutomaticGeneration)    * -->
        <std:node name="InformationTable">
          <!-- *        New Node (Properties)     * -->
          <std:node name="Properties">

            <!-- *         New Node (RelativePoisitionToRepresentation) to define delative position w.r.t represenation    * -->
            <std:node name="RelativePositionToRepresentation">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (VerticalCellMargin)     * -->
            <std:node name="VerticalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (HorizontalCellMargin)     * -->
            <std:node name="HorizontalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
          </std:node>


          <!-- *         New Node (Header)     * -->
          <std:node name="Header">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>

          <!-- *         New Node (Footer)     * -->
          <std:node name="Footer">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>

            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>

          <!-- *         New Node (ConnectorTable)     * -->

          <std:node name="ConnectorTable">

            <!-- *        New Node (Properties)     * -->
            <std:node name="Properties">
              <std:node name="Generation">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>
              <!-- *         Node Modification(GenerateHeader)     * -->
              <std:node name="GenerateHeader">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
           
              <!-- *         New Node (TableSplit)     * -->
              <std:node name="TableSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="SpaceBetweenTwoSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="CellMargin">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="DisplayUnit">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>

              <std:node name="Sorting">
                <std:enumval name="ElecSorting">Ascending</std:enumval>
              </std:node>

              <std:node name="DisplayEmptyCavity">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>

              <std:node name="MergeDuplicateCavity">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
            </std:node>

            <std:node name="AttributeOrder">
              <std:node name="Column1">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column2">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column3">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column4">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column5">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column6">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column7">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column8">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column9">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column10">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column11">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column12">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column13">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column14">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column15">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column16">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column17">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column18">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column19">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column20">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column21">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column22">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column23">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
            </std:node>
          </std:node>

        </std:node>
      </std:node>

      <std:node name="TerminalBlock">

        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
             <std:strval></std:strval>
          </std:node>
        </std:node>

        <!-- **         New Node (InformationTable) replacement of (AutomaticGeneration)    * -->
        <std:node name="InformationTable">
          <!-- *        New Node (Properties)     * -->
          <std:node name="Properties">

            <!-- *         New Node (RelativePoisitionToRepresentation) to define delative position w.r.t represenation    * -->
            <std:node name="RelativePositionToRepresentation">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (VerticalCellMargin)     * -->
            <std:node name="VerticalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (HorizontalCellMargin)     * -->
            <std:node name="HorizontalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
          </std:node>
          <!-- *         New Node (Header)     * -->
          <std:node name="Header">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>

          <!-- *         New Node (Footer)     * -->
          <std:node name="Footer">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>

            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>

          <!-- *         New Node (ConnectorTable)     * -->

          <std:node name="ConnectorTable">

            <!-- *        New Node (Properties)     * -->
            <std:node name="Properties">
              <std:node name="Generation">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>
              <!-- *         Node Modification(GenerateHeader)     * -->
              <std:node name="GenerateHeader">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
           
              <!-- *         New Node (TableSplit)     * -->
              <std:node name="TableSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="SpaceBetweenTwoSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="CellMargin">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="DisplayUnit">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>

              <std:node name="Sorting">
                <std:enumval name="ElecSorting">Ascending</std:enumval>
              </std:node>

              <std:node name="DisplayEmptyCavity">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>

              <std:node name="MergeDuplicateCavity">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
            </std:node>

            <std:node name="AttributeOrder">
              <std:node name="Column1">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column2">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column3">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column4">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column5">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column6">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column7">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column8">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column9">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column10">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column11">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column12">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column13">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column14">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column15">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column16">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column17">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column18">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column19">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column20">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column21">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column22">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column23">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
            </std:node>
          </std:node>

        </std:node>

      </std:node>

      <std:node name="Splice">
        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
             <std:strval></std:strval>
          </std:node>
        </std:node>
        <!-- **         New Node (InformationTable) replacement of (AutomaticGeneration)    * -->
        <std:node name="InformationTable">
          <!-- *        New Node (Properties)     * -->
          <std:node name="Properties">

            <!-- *         New Node (RelativePoisitionToRepresentation) to define delative position w.r.t represenation    * -->
            <std:node name="RelativePositionToRepresentation">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (VerticalCellMargin)     * -->
            <std:node name="VerticalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
            <!-- *         New Node (HorizontalCellMargin)     * -->
            <std:node name="HorizontalCellMargin">
              <std:intval>10</std:intval>
            </std:node>
          </std:node>


          <!-- *         New Node (Header)     * -->
          <std:node name="Header">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <!-- *         New Node (Orientation)     * -->
            <std:node name="Orientation">
              <std:enumval name="ElecTextOrientation">TextTemplateDefault</std:enumval>
            </std:node>
            <std:node name="CatalogName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateName">
              <std:strval></std:strval>
            </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
          </std:node>

          <!-- *         New Node (ConnectorTable)     * -->
          <std:node name="ConnectorTable">

            <!-- *        New Node (Properties)     * -->
            <std:node name="Properties">
              <std:node name="Generation">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>
              <!-- *         Node Modification(GenerateHeader)     * -->
              <std:node name="GenerateHeader">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
           
              <std:node name="DisplayCavityColumn">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
           
              <!-- *         New Node (TableSplit)     * -->
              <std:node name="TableSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="SpaceBetweenTwoSplit">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="CellMargin">
                <std:intval>10</std:intval>
              </std:node>

              <std:node name="DisplayUnit">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>

              <std:node name="Sorting">
                <std:enumval name="ElecSorting">Ascending</std:enumval>
              </std:node>

              <std:node name="DisplayEmptyCavity">
                <std:enumval name="YesNo">Yes</std:enumval>
              </std:node>

              <std:node name="MergeDuplicateCavity">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
            </std:node>

            <std:node name="AttributeOrder">
              <std:node name="Column1">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column2">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column3">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column4">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column5">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column6">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column7">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column8">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column9">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column10">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column11">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column12">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column13">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column14">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column15">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column16">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column17">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column18">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column19">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column20">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column21">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column22">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
              <std:node name="Column23">
                <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
              </std:node>
            </std:node>
                      
            <std:node name="AdditionalAttributes">
              <std:node name="Generation">
                <std:enumval name="YesNo">No</std:enumval>
              </std:node>
                <std:node name="TableName">
                <std:strval></std:strval>
              </std:node>
              <std:node name="AttributeName">
                <std:strval></std:strval>
              </std:node>
            </std:node>
            
          </std:node>

        </std:node>
      </std:node>

      <std:node name="ConnectorShell">

        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
             <std:strval></std:strval>
          </std:node>
        </std:node>

        <std:node name="Header">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="TextTemplateName">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>

      <std:node name="BackShell">

        <!-- *         Node re-definition(Representation)     * -->
        <std:node name="Representation">
          <std:node name="Type">
            <std:enumval name="ElecGraphicReplacement">3Dprojection</std:enumval>
          </std:node>
          <std:node name="2DDetailOrientation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>
          <std:node name="2DDetailName">
             <std:strval></std:strval>
          </std:node>
        </std:node>

        <std:node name="Header">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="CatalogName">
            <std:strval></std:strval>
          </std:node>

          <std:node name="TextTemplateName">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <!-- ******************************************************************* -->
      <!-- *         2D-Clocking View - Removed                   * -->
      <!-- ******************************************************************* -->

    </std:node>

    <std:node name="GreenLine">
      <std:node name="LoopLine">
        <std:node name="Display">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="LineType">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="LineThickness">
          <std:intval>1</std:intval>
        </std:node>
      </std:node>

      <std:node name="DistantLink">
        <std:node name="Display">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="LineType">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="LineThickness">
          <std:intval>1</std:intval>
        </std:node>
      </std:node>

      <std:node name="MechanicalPart">
        <std:node name="Display">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="LineType">
          <std:intval>1</std:intval>
        </std:node>
        <std:node name="LineThickness">
          <std:intval>1</std:intval>
        </std:node>
      </std:node>

    </std:node>

    <std:node name="Sheet">
      <std:node name="Reports">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="ReportName">
          <std:strval></std:strval>
        </std:node>
        <std:node name="Properties">
          <std:node name="OffsetFromFrameBorder">
            <std:intval>10</std:intval>
          </std:node>
          <std:node name="TableSplit">
            <std:intval>10</std:intval>
          </std:node>
          <std:node name="SpaceBetweenTwoSplit">
            <std:intval>5</std:intval>
          </std:node>
          <std:node name="SpaceBetweenTwoTables">
            <std:intval>10</std:intval>
          </std:node>
          <std:node name="DisplayLineNumber">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="SplitOption">
            <std:enumval name="ElecSplitOption">Horizontal</std:enumval>
          </std:node>
          <std:node name="ReportPosition">
            <std:enumval name="ElecReportPosition">BottomLeft</std:enumval>
          </std:node>
          <std:node name="SheetLocation">
            <std:enumval name="ElecSheetLocation">MainView</std:enumval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="ColorTable">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TableName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
  </std:node>

  </std:node>

  <!-- ******************************************************************* -->
<!-- *         END APPLICATION - ELECTRICAL                   * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         BEGIN   APPLICATION - GENERATIVE SHAPEDESIGN            * -->
<!-- ******************************************************************* -->
<!--Start enums definition for ShapeDesign-->
   <std:enumdef name="ShapeDesignLabelsType">
      <std:strval name="ShapeDesignLabelsType">Inherited from 3D labels</std:strval>

      <std:strval name="ShapeDesignLabelsType">LWH</std:strval>

      <std:strval name="ShapeDesignLabelsType">XYZ</std:strval>
   </std:enumdef>

   <std:enumdef name="ShapeDesignHLabelsPosition">
      <std:strval name="ShapeDesignHLabelsPosition">None</std:strval>

      <std:strval name="ShapeDesignHLabelsPosition">Bottom</std:strval>

      <std:strval name="ShapeDesignHLabelsPosition">Top</std:strval>

      <std:strval name="ShapeDesignHLabelsPosition">Both sides</std:strval>
   </std:enumdef>

   <std:enumdef name="ShapeDesignVLabelsPosition">
      <std:strval name="ShapeDesignVLabelsPosition">None</std:strval>

      <std:strval name="ShapeDesignVLabelsPosition">Left</std:strval>

      <std:strval name="ShapeDesignVLabelsPosition">Right</std:strval>

      <std:strval name="ShapeDesignVLabelsPosition">Both sides</std:strval>
   </std:enumdef>

<!--End enums definition for ShapeDesign-->
<!--Generative ShapeDesign Application-->
   <std:node name="Generative Shape Design">
<!--WorkOnSupport Category-->
      <std:node name="WorkOnSupport">
<!--Extraction Flag for Spot Fasteners (Yes/No)-->
<!--Default Value=Yes-->
         <std:node name="Extraction">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

<!--Grid limits/geometry-->
<!--Default Value=10%-->
         <std:node name="Grid step ratio for increasing grid limits">
            <std:floatval>10</std:floatval>
         </std:node>

<!--Lines dress up-->
         <std:node name="Lines">
<!--Color -->
            <std:node name="Color">
               <std:colorval>0 0 0</std:colorval>
            </std:node>

<!--Linetype -->
            <std:node name="Linetype">
               <std:intval>1</std:intval>
            </std:node>

<!--Thickness -->
            <std:node name="Thickness">
               <std:intval>1</std:intval>
            </std:node>
         </std:node>

<!--Labels dress up-->
         <std:node name="Labels">
<!--Type -->
            <std:node name="Type">
               <std:enumval name="ShapeDesignLabelsType">Inherited from 3D labels</std:enumval>
            </std:node>

<!--Position -->
            <std:node name="Position">
<!--Horizontal -->
               <std:node name="Horizontal">
                  <std:enumval name="ShapeDesignHLabelsPosition">None</std:enumval>
               </std:node>

<!--Vertical -->
               <std:node name="Vertical">
                  <std:enumval name="ShapeDesignVLabelsPosition">None</std:enumval>
               </std:node>
            </std:node>

<!--Font -->
            <std:node name="Font">
<!--Font Name-->
               <std:node name="Name">
                  <std:strval>Arial</std:strval>
               </std:node>

<!--Font Size-->
               <std:node name="Size">
                  <std:floatval>10</std:floatval>
               </std:node>

<!--Font Color-->
               <std:node name="Color">
                  <std:colorval>0 0 0</std:colorval>
               </std:node>

<!--Font Bold-->
               <std:node name="Bold">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

<!--Font Italic-->
               <std:node name="Italic">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>
         </std:node>
      </std:node>
   </std:node>

<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - GENERATIVE SHAPEDESIGN              * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         START APPLICATION - Composites DESIGN                   * -->
<!-- ******************************************************************* -->

  <std:enumdef name="Entity Level">
    <!--Enum defination for the Entity Level -->
    <!--This should not be changed           -->
    <std:strval>Plies Group</std:strval>
    <std:strval>Sequence</std:strval>
    <std:strval>Ply</std:strval>
    <std:strval>Cut Piece</std:strval>
  </std:enumdef>

  <std:enumdef name="GenerativeContext">
    <!--Enum defination for the Generative Context -->
    <!--This should not be changed                 -->
    <std:strval>3DView</std:strval>
    <std:strval>Table</std:strval>
  </std:enumdef>
  
   <std:node name="Composites Design">
      <std:node name="Ply">
         <std:node name="Contour">
            <!--Extraction Flag for ply contour (Yes/No)-->
            <!--Default Value=Yes-->
            <std:enumval name="YesNo">Yes</std:enumval>
         </std:node>

         <std:node name="Exploded surface">
            <!--Extraction Flag for ply exploded surface (Yes/No)-->
            <!--Default Value=Yes-->
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Flatten">
            <!--Extraction Flag for ply flatten (Yes/No)-->
            <!--Default Value=Yes-->
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Highlight shell">
            <!--Extraction Flag for ply highlight shell (Yes/No)-->
            <!--Default Value=No-->
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Seed point">
            <!--Extraction Flag for ply seed point (Yes/No)-->
            <!--Default Value=No-->
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Seed curve">
           <!--Extraction Flag for ply seed curve (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Rosette">
           <!--Extraction Flag for ply rosette (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Rosette Representation">
           <!--Extraction flag for rosette representation-->
           <!--Warning: taken into account only if "Rosette" flag is set to Yes -->
           <!-- Values are 'SimpleColored' ___________________ 0° & 90° lines (black) + colored line for ply orientation  -->
           <!--            'SimpleDotted' ____________________ 0° & 90° lines (black) + dotted line (black) for ply orientation -->
           <!--            'SimpleColoredAndDotted' __________ 0° & 90° lines (black) + colored & dotted (balck) lines for ply orientation -->
           <!--            'ExtendedRosetteFull' _____________ Complete rosette (colored arrows + values) where arrows are dotted except ply orientation one -->
           <!--            'ExtendedRosetteSingleArrow' ______ Ply/cut-piece orientation arrow only (colored arrow + value) -->
           <!--Default Value = SimpleColored-->
           <std:strval>SimpleColored</std:strval>
         </std:node>

         <std:node name="Name">
           <!--Extraction Flag for ply name (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Contour thickness">
           <!--Extraction Flag for ply contour thickness (1-8)-->
           <!--Default Value=0-->
           <std:intval>0</std:intval>
         </std:node>

         <std:node name="Other geometry">
           <!--Extraction Flag for aggregated geometry under ply feature (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Overwrite color inheritance">
           <!--Extraction Flag to force color of ply even if Drafting\ViewDressup\3DInheritance\WireFrame\Color = No (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>
      </std:node>

      <std:node name="Core">
         <std:node name="Solid">
           <!--Extraction Flag for core geometry (Yes/No)-->
           <!--Default Value=Yes-->
           <std:enumval name="YesNo">Yes</std:enumval>
         </std:node>

         <std:node name="Name">
           <!--Extraction Flag for core name (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Rosette">
           <!--Extraction Flag for core rosette (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Other geometry">
           <!--Extraction Flag for aggregated geometry under core feature (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>

         <std:node name="Overwrite color inheritance">
           <!--Extraction Flag to force color of core even if Drafting\ViewDressup\3DInheritance\Solid\Color = No (Yes/No)-->
           <!--Default Value=No-->
           <std:enumval name="YesNo">No</std:enumval>
         </std:node>
      </std:node>
   
	   <std:node name="Core Sample">
	      <std:node name="3D Label">
			<!--Extraction flag to generate annotation at CS point with same text as the 3D label (Yes/No)-->
			<!--Default Value=Yes-->
	         <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  
	      <std:node name="Table">
			<!--Extraction flag to generate a table with the list of plies at the CS point (Yes/No)-->
			<!--Default Value=No-->
	         <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Plies Group Name">
			<!--Extraction flag to have a "Plies Group" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=No-->
	         <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Sequence Name">
			<!--Extraction flag to have a "Sequence" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=No-->
	         <std:enumval name="YesNo">No</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Entity Name">
			<!--Extraction flag to have a "Entity" (ply, cut-piece or core) column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
	        <!--Default Value=Yes-->
	         <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Material ID">
			<!--Extraction flag to have a "Material ID" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=Yes-->
	         <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Material Name">
			<!--Extraction flag to have a "Material Name" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=No-->
	        <std:enumval name="YesNo">No</std:enumval>
	      </std:node>
		  
	      <std:node name="Table Column Orientation Name">
			<!--Extraction flag to have a "Orientation Name" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=Yes-->
	         <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Orientation Value">
			<!--Extraction flag to have a "Orientation Value" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=Yes-->
	         <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
		  
	      <std:node name="Table Column Rosette">
			<!--Extraction flag to have a "Rosette" column in the CS results table (used only if "CS Result Table" is set to "Yes") (Yes/No)-->
			<!--Default Value=Yes-->
	         <std:enumval name="YesNo">Yes</std:enumval>
		  </std:node>
	
	   </std:node>

	   <std:node name="Stacking">

      <std:node name="Generative Context">
        <!--Extraction Flag for GenerativeContext(Table/3DView)-->
        <!--Default Value = Table                              -->
        <std:enumval name="GenerativeContext">3DView</std:enumval>
      </std:node>

      <std:node name="Table">
        <!-- Composite Table (Yes/No)-->
        <!-- Default Value = Yes     -->
        <std:enumval name="YesNo">No</std:enumval>

        <std:node name="Stacking Entity Level">
          <!--Entity Level for Stacking Information retrieval                 -->
          <!--Valid Options are 1. Plies Group 2. Sequence 3. Ply 4. Cut Piece-->
          <std:enumval name="Entity Level">Ply</std:enumval>
        </std:node>

        <std:node name="Column Plies Group">
          <!--Table Column : Plies Group (Yes/No)-->
          <!--Default Value = Yes                -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Sequence">
          <!--Table Column : Sequence (Yes/No)  -->
          <!--Default Value = Yes               -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Ply">
          <!--Table Column : Ply (Yes/No)  -->
          <!--Default Value = Yes          -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Cut Piece">
          <!--Table Column : Cut Piece (Yes/No)-->
          <!--Default Value = Yes              -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Material ID">
          <!--Table Column : Material ID (Yes/No)  -->
          <!--Default Value = Yes                  -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Material Name">
          <!--Table Column : Material Name (Yes/No)-->
          <!--Default Value = No                   -->
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>

        <std:node name="Column Orientation Name">
          <!--Table Column : Orientation Name (Yes/No)-->
          <!--Default Value = Yes                     -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Orientation Value">
          <!--Table Column : Orientation Value (Yes/No)-->
          <!--Default Value = No                       -->
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>

        <std:node name="Column Rosette">
          <!--Table Column : Rosette (Yes/No)-->
          <!--Default Value =             Yes-->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Surface">
          <!--Table Column : Surface (Yes/No)-->
          <!--Default Value = Yes            -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Draping">
          <!--Table Column : Draping (Yes/No)-->
          <!--Default Value = Yes            -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>

        <std:node name="Column Core Sample">
          <!--Table Column : Core Samples (Yes/No)-->
          <!--Default Value = Yes                 -->
          <std:enumval name="YesNo">Yes</std:enumval>
        </std:node>
      </std:node>
    </std:node>
   </std:node>
<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - Composites DESIGN                   * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************** -->
<!-- *         START APPLICATION - CLOUD                                  -->
<!-- ******************************************************************** -->
   <std:node name="Cloud">
      <std:node name="General">
         <std:node name="MaxNbOfPoints">
            <std:intval>-1</std:intval>
         </std:node>

         <std:node name="Point">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="MaxNbOfPoints">
               <std:intval>100000</std:intval>
            </std:node>
         </std:node>

         <std:node name="Scan">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="MaxNbOfSegments">
               <std:intval>-1</std:intval>
            </std:node>
         </std:node>

         <std:node name="Grid">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="MaxNbOfPoints">
               <std:intval>-1</std:intval>
            </std:node>
         </std:node>

         <std:node name="Mesh">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="MaxNbOfTriangles">
               <std:intval>-1</std:intval>
            </std:node>
         </std:node>
      </std:node>

<!-- ********* OBJECT = ZLevelMap (begin) **************************** -->
      <std:node name="ZLevelMap">
<!-- ********* To hide Z level curves above and below construction-->
         <std:node name="HideZLevelInsideConstruction">
            <std:enumval name="YesNo">No</std:enumval>
         </std:node>

<!--  ********* Z level peaks (begin) -->
- 
<std:node name="ZLevelPeaks">
<std:node name="Display">
   <std:enumval name="YesNo">Yes</std:enumval>
</std:node>
<!-- Font -->
- 
<std:node name="Font">- 
<!-- Font Name -->
- 
<std:node name="Name">
   <std:strval>Arial</std:strval>
</std:node>

- 
<!-- Font Size -->
- 
<std:node name="SizeScale">
   <std:floatval>1.0</std:floatval>
</std:node>

- 
<!-- Font Color -->
- 
<std:node name="Color">
   <std:colorval>0 0 0</std:colorval>
</std:node>

- 
<!-- Font Bold -->
- 
<std:node name="Bold">
   <std:enumval name="YesNo">No</std:enumval>
</std:node>

- 
<!-- Font Italic -->
- 
<std:node name="Italic">
   <std:enumval name="YesNo">No</std:enumval>
</std:node>
</std:node>

</std:node>
<!--  ********* Z Level peaks (end) -->

<!-- ********* Major Z Level Curve (begin) -->
         <std:node name="MajorZLevelCurve">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="Color">
               <std:colorval>255 0 0</std:colorval>
            </std:node>

            <std:node name="Linetype">
               <std:intval>1</std:intval>
            </std:node>

            <std:node name="Thickness">
               <std:intval>2</std:intval>
            </std:node>
         </std:node>

<!-- ********* Major Z Level Curve (end) -->
<!-- ********* Minor Z Level Curve (begin) -->
         <std:node name="MinorZLevelCurve">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="Color">
               <std:colorval>0 128 255</std:colorval>
            </std:node>

            <std:node name="Linetype">
               <std:intval>1</std:intval>
            </std:node>

            <std:node name="Thickness">
               <std:intval>1</std:intval>
            </std:node>
         </std:node>

<!-- ********* Minor Z Level Curve (end) -->
<!-- ********* Major Z Level Label (begin) -->
         <std:node name="MajorZLevelLabel">
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

<!--Font -->
            <std:node name="Font">
<!--Font Name-->
               <std:node name="Name">
                  <std:strval>Arial</std:strval>
               </std:node>

<!--Font Size-->
               <std:node name="SizeScale">
                  <std:floatval>1.0</std:floatval>
               </std:node>

<!--Does the text hide the Z level scans -->
               <std:node name="HideScans">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

<!--Font Color-->
               <std:node name="Color">
                  <std:colorval>255 0 0</std:colorval>
               </std:node>

<!--Font Bold-->
               <std:node name="Bold">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

<!--Font Italic-->
               <std:node name="Italic">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>

            <std:node name="Frame">
               <std:enumval name="YesNo">No</std:enumval>
            </std:node>
         </std:node>

<!-- ********* Major Z Level Label (end) -->
<!-- ********* Minor Z Level Label (begin) -->
         <std:node name="MinorZLevelLabel">
            <std:node name="Display">
               <std:enumval name="YesNo">No</std:enumval>
            </std:node>

<!--Font -->
            <std:node name="Font">
<!--Font Name-->
               <std:node name="Name">
                  <std:strval>Arial</std:strval>
               </std:node>

<!--Font Size-->
               <std:node name="SizeScale">
                  <std:floatval>1.0</std:floatval>
               </std:node>

<!--Does the text hide the Z level scans -->
               <std:node name="HideScans">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

<!--Font Color-->
               <std:node name="Color">
                  <std:colorval>0 128 255</std:colorval>
               </std:node>

<!--Font Bold-->
               <std:node name="Bold">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>

<!--Font Italic-->
               <std:node name="Italic">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>

            <std:node name="Frame">
               <std:enumval name="YesNo">No</std:enumval>
            </std:node>
         </std:node>

<!-- ********* Major Z Level Label (end) -->
      </std:node>

<!-- ********* OBJECT = ZLevelMap (end) **************************** -->
   </std:node>

<!-- ******************************************************************** -->
<!-- *         END   APPLICATION - CLOUD                                  -->
<!-- ******************************************************************** -->
<!-- ******************************************************************* -->
<!-- *         START   APPLICATION - Fastener Infrastructure           * -->
<!-- ******************************************************************* -->
   <std:node name="Fastener Infrastructure">
<!--Fastener Infrastructure-->
      <std:node name="Spot Assembly Fasteners">
<!--Spot Assembly Fasteners-->
         <std:node name="Generate">
<!--Extraction Parameters-->
            <std:node name="Extract Location">
<!--Extraction Flag for Spot Assembly Fasteners (Yes/No)-->
<!--Default Value=Yes-->
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>

            <std:node name="Angular Tolerance">
<!--Maximum Angle between Spot Assembly Normal Vector and View Background Plane-->
<!--Default Value=90.0-->
               <std:floatval>90.0</std:floatval>
            </std:node>

            <std:node name="Include View Reverse Direction">
<!--Reverse Direction for Spot Assembly Fasteners (Yes/No)-->
<!--Default Value=No-->
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="View Dress Up">
<!--View Dress Up parameters-->
            <std:node name="Technological Symbol">
               <std:node name="Color">
<!--indicates if the 2D technological symbol of Spot assembly fastener must be generated with a fill color or not (Yes/No)-->
<!--Default Value=No-->
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
            </std:node>

            <std:node name="Additional Symbols">
               <std:node name="Symbol 1">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">No</std:enumval>
                  </std:node>

                  <std:node name="Assignment">
                     <std:strval>
                     </std:strval>
                  </std:node>
               </std:node>

               <std:node name="Symbol 2">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">No</std:enumval>
                  </std:node>

                  <std:node name="Assignment">
                     <std:strval>
                     </std:strval>
                  </std:node>
               </std:node>

               <std:node name="Symbol 3">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">No</std:enumval>
                  </std:node>

                  <std:node name="Assignment">
                     <std:strval>
                     </std:strval>
                  </std:node>
               </std:node>

               <std:node name="Symbol 4">
                  <std:node name="Visible">
                     <std:enumval name="YesNo">No</std:enumval>
                  </std:node>

                  <std:node name="Assignment">
                     <std:strval>
                     </std:strval>
                  </std:node>
               </std:node>
            </std:node>
         </std:node>
      </std:node>
   </std:node>

<!-- ******************************************************************* -->
<!-- *         END APPLICATION - Fastener Infrastructure                 * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************* -->
<!-- *         BEGIN   APPLICATION - Resource Definition & Layout      * -->
<!-- ******************************************************************* -->
<!--Start enums definition for Resource Definition & Layout-->
   <std:enumdef name="ResourceLayoutLabelPosition">
      <std:strval>BottomCenter</std:strval>

      <std:strval>BottomLeft</std:strval>

      <std:strval>BottomRight</std:strval>

      <std:strval>TopCenter</std:strval>

      <std:strval>TopLeft</std:strval>

      <std:strval>TopRight</std:strval>

      <std:strval>Center</std:strval>
   </std:enumdef>

<!--End enums definition for Resource Definition & Layout-->
<!-- Resource Definition & Layout Application -->
   <std:node name="ResourceLayout">
<!-- Attributes for Line Category of Resource -->
      <std:node name="Line">
<!--Position Size and Color-->
         <std:node name="TextProperties">
            <std:node name="TextPosition">
               <std:enumval name="ResourceLayoutLabelPosition">BottomLeft</std:enumval>
            </std:node>

            <std:node name="FontSize">
               <std:intval>20</std:intval>
            </std:node>

            <std:node name="FontColor">
               <std:colorval>255 0 0</std:colorval>
            </std:node>
         </std:node>

<!--Identification string for Line Category of Resource-->
<!--Default Value=Line-->
         <std:node name="Label">
            <std:node name="Label">
               <std:strval>Line</std:strval>
            </std:node>

<!--Extraction Flag for Label (Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>
      </std:node>

<!-- End Attributes for Line Category of Resource -->
<!-- Attributes for Station Category of Resource -->
      <std:node name="Station">
<!--Position Size and Color-->
         <std:node name="TextProperties">
            <std:node name="TextPosition">
               <std:enumval name="ResourceLayoutLabelPosition">BottomCenter</std:enumval>
            </std:node>

            <std:node name="FontSize">
               <std:intval>15</std:intval>
            </std:node>

            <std:node name="FontColor">
               <std:colorval>0 255 0</std:colorval>
            </std:node>
         </std:node>

<!--Identification string for Station Category of Resource-->
<!--Default Value=Station-->
         <std:node name="Label">
            <std:node name="Label">
               <std:strval>Station</std:strval>
            </std:node>

<!--Extraction Flag for Label (Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

<!--Other Attributes to be extracted-->
         <std:node name="MainType">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="SubType">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="Manufacturer">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="Category">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>
      </std:node>

<!-- End Attributes for Station Category of Resource -->
<!-- Attributes for Resource Category of Resource -->
      <std:node name="Resource">
<!--Position Size and Color-->
         <std:node name="TextProperties">
            <std:node name="TextPosition">
               <std:enumval name="ResourceLayoutLabelPosition">BottomRight</std:enumval>
            </std:node>

            <std:node name="FontSize">
               <std:intval>15</std:intval>
            </std:node>

            <std:node name="FontColor">
               <std:colorval>0 0 255</std:colorval>
            </std:node>
         </std:node>

<!--Identification string for Resource Category of Resource-->
<!--Default Value=Resource-->
         <std:node name="Label">
            <std:node name="Label">
               <std:strval>Resource</std:strval>
            </std:node>

<!--Extraction Flag for Label (Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

<!--Other Attributes to be extracted-->
         <std:node name="PurchaseCost">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="MaintenanceCost">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="RepairCost">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>

         <std:node name="CycleTime">
<!--Extraction Flag(Yes/No)-->
<!--Default Value=Yes-->
            <std:node name="Display">
               <std:enumval name="YesNo">Yes</std:enumval>
            </std:node>
         </std:node>
      </std:node>
   </std:node>

<!-- ******************************************************************* -->
<!-- *         END   APPLICATION - Resource Definition & Layout        * -->
<!-- ******************************************************************* -->

  <!-- ******************************************************************** -->
  <!-- * BEGIN APPLICATION - Functional Tolerancing And Annotation        * -->
  <!-- *           Technological Area Generation for NOA object           * -->
  <!-- ******************************************************************** -->

  <std:node name="FunctionalTolerancingAndAnnotation">
    <std:node name="NoteObjectAttribute">
      <std:node name="TechnologicalAreaGeneration">
        <std:node name="TechnologicalAreaGenerationMode">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="TechnologicalAreaForFTA">
          <std:node name="NOAExtractedType">
            <std:strval>NOAForExtraction</std:strval>
          </std:node>
          <std:node name="NOAPatternName">
            <std:strval>STD 5</std:strval>
          </std:node>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
 
  <!-- ******************************************************************* -->
  <!-- * END APPLICATION - Functional Tolerancing And Annotation         * -->
  <!-- ******************************************************************* -->

<!-- ******************************************************************** -->
<!-- * BEGIN APPLICATION - Piping And Tubing Design        * -->
<!-- ******************************************************************** -->

<std:node name="Piping Tubing Design">
	<std:node name="GR_0">
		<std:node name="Min_NominalSize">
			<std:strval>0in</std:strval>
		</std:node>
		<std:node name="Max_NominalSize">
			<std:strval>2in</std:strval>
		</std:node>
	  <std:node name="Piping Tubing Part">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:enumval name="PipGraphicReplacement">3Dprojection</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
			  	<std:strval></std:strval>
			  </std:node>
			  <std:node name="Name">
				  <std:strval></std:strval>
			  </std:node>
		  </std:node>
		  <std:node name="TextTemplate">
			  <std:node name="Generation">
				  <std:enumval name="YesNo">No</std:enumval>
			  </std:node>
			  <std:node name="Catalog_Chapter Name">
				  <std:strval></std:strval>
			  </std:node>
			  <std:node name="TextTemplateName">
				  <std:strval></std:strval>
			  </std:node>
		  </std:node>
	  </std:node>
	  <std:node name="Rigid Pipe_Tube">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:node name="Representation">
					<std:enumval name="PipGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
          <std:node name="RigidBranchPort">
            <std:node name="Display">
              <std:enumval name="YesNo">No</std:enumval>
				</std:node>
			</std:node>
			<std:node name="Color">
				<std:colorval>0 0 0</std:colorval>
			</std:node>
			<std:node name="AxisLine">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="ExtensionLength">
					<std:floatval>1.0</std:floatval>
				</std:node>
			</std:node>
			<std:node name="CornerBendPoint">
				<std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
				</std:node>
				<std:node name="Numbering">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			<std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
			</std:node>
			</std:node>
			<std:node name="CenterCurve">
				<std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>4</std:intval>
				</std:node>
			</std:node>
			<std:node name="EndStyleSymbol">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="Catalog_Chapter Name">
					<std:strval></std:strval>
				</std:node>
				<std:node name="Name">
					<std:strval></std:strval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>  
	  </std:node>
	  <std:node name="Flexible Pipe_Tube">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:node name="Representation">
					<std:enumval name="PipGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="Color">
				<std:colorval>0 0 0</std:colorval>
			</std:node>
			<std:node name="CornerBendPoint">
				<std:node name="Display">
					<std:enumval name="YesNo">Yes</std:enumval>
				</std:node>
				<std:node name="Numbering">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			</std:node>
			<std:node name="CenterCurve">
				<std:node name="Display">
					<std:enumval name="YesNo">Yes</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>4</std:intval>
				</std:node>
			</std:node>
			<std:node name="EndStyleSymbol">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="Catalog_Chapter Name">
					<std:strval></std:strval>
				</std:node>
				<std:node name="Name">
					<std:strval></std:strval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>  
	  </std:node>
	  <std:node name="Insulation">
		<std:node name="Pipe_Tube">
			<std:node name="GraphicRepresentation">
				<std:node name="Type">
					<std:enumval name="PipInsulationGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="2DdetailOnExtremities">
					<std:node name="Generation">
						<std:enumval name="YesNo">No</std:enumval>
					</std:node>
					<std:node name="Catalog_Chapter Name">
						<std:strval></std:strval>
					</std:node>
					<std:node name="Name">
						<std:strval></std:strval>
					</std:node>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="Piping Tubing Part">
			<std:node name="GraphicRepresentation">
				<std:node name="Type">
					<std:enumval name="PipPartInsuGraphicRepresentation">3Dprojection</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
			</std:node>  
		</std:node>
	</std:node>
	<std:node name="GR_1">
		<std:node name="Min_NominalSize">
			<std:strval>2in</std:strval>
		</std:node>
		<std:node name="Max_NominalSize">
			<std:strval>4in</std:strval>
		</std:node>
	    <std:node name="Piping Tubing Part">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:enumval name="PipGraphicReplacement">3Dprojection</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="Name">
				<std:strval></std:strval>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>
	  </std:node>
	  <std:node name="Rigid Pipe_Tube">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:node name="Representation">
					<std:enumval name="PipGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="Color">
				<std:colorval>0 0 0</std:colorval>
			</std:node>
			<std:node name="AxisLine">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="ExtensionLength">
					<std:floatval>1.0</std:floatval>
				</std:node>
			</std:node>
          <std:node name="RigidBranchPort">
				<std:node name="Display">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			</std:node>
			<std:node name="CornerBendPoint">
				<std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
				</std:node>
				<std:node name="Numbering">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			<std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
            </std:node>
			</std:node>
			<std:node name="CenterCurve">
				<std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="EndStyleSymbol">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="Catalog_Chapter Name">
					<std:strval></std:strval>
				</std:node>
				<std:node name="Name">
					<std:strval></std:strval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>  
	  </std:node>
	  <std:node name="Flexible Pipe_Tube">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:node name="Representation">
					<std:enumval name="PipGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="Color">
				<std:colorval>0 0 0</std:colorval>
			</std:node>
			<std:node name="CornerBendPoint">
				<std:node name="Display">
					<std:enumval name="YesNo">Yes</std:enumval>
				</std:node>
				<std:node name="Numbering">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			</std:node>
			<std:node name="CenterCurve">
				<std:node name="Display">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="EndStyleSymbol">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="Catalog_Chapter Name">
					<std:strval></std:strval>
				</std:node>
				<std:node name="Name">
					<std:strval></std:strval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>  
	  </std:node>
	  <std:node name="Insulation">
		<std:node name="Pipe_Tube">
			<std:node name="GraphicRepresentation">
				<std:node name="Type">
					<std:enumval name="PipInsulationGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="2DdetailOnExtremities">
					<std:node name="Generation">
						<std:enumval name="YesNo">No</std:enumval>
					</std:node>
					<std:node name="Catalog_Chapter Name">
						<std:strval></std:strval>
					</std:node>
					<std:node name="Name">
						<std:strval></std:strval>
					</std:node>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="Piping Tubing Part">
			<std:node name="GraphicRepresentation">
				<std:node name="Type">
					<std:enumval name="PipPartInsuGraphicRepresentation">3Dprojection</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
			</std:node>  
		</std:node>
	</std:node>
	<std:node name="GR_2">
	    <std:node name="Min_NominalSize">
			<std:strval>4in</std:strval>
		</std:node>
		<std:node name="Max_NominalSize">
			<std:strval></std:strval>
		</std:node>
		<std:node name="Piping Tubing Part">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:enumval name="PipGraphicReplacement">3Dprojection</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="Name">
				<std:strval></std:strval>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>
	  </std:node>
	  <std:node name="Rigid Pipe_Tube">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:node name="Representation">
					<std:enumval name="PipGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="Color">
				<std:colorval>0 0 0</std:colorval>
			</std:node>
			<std:node name="AxisLine">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="ExtensionLength">
					<std:floatval>1.0</std:floatval>
				</std:node>
			</std:node>
          <std:node name="RigidBranchPort">
				<std:node name="Display">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			     </std:node>
			<std:node name="CornerBendPoint">
				<std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
				</std:node>
				<std:node name="Numbering">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			<std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
            </std:node>
			</std:node>
			<std:node name="CenterCurve">
				<std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="EndStyleSymbol">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="Catalog_Chapter Name">
					<std:strval></std:strval>
				</std:node>
				<std:node name="Name">
					<std:strval></std:strval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>  
	  </std:node>
	  <std:node name="Flexible Pipe_Tube">
		<std:node name="GraphicRepresentation">
			<std:node name="Type">
				<std:node name="Representation">
					<std:enumval name="PipGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
			<std:node name="Color">
				<std:colorval>0 0 0</std:colorval>
			</std:node>
			<std:node name="CornerBendPoint">
				<std:node name="Display">
					<std:enumval name="YesNo">Yes</std:enumval>
				</std:node>
				<std:node name="Numbering">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
			</std:node>
			<std:node name="CenterCurve">
				<std:node name="Display">
					<std:enumval name="YesNo">Yes</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>4</std:intval>
				</std:node>
			</std:node>
			<std:node name="EndStyleSymbol">
				<std:node name="Generation">
					<std:enumval name="YesNo">No</std:enumval>
				</std:node>
				<std:node name="Catalog_Chapter Name">
					<std:strval></std:strval>
				</std:node>
				<std:node name="Name">
					<std:strval></std:strval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
		</std:node>  
	  </std:node>
	  <std:node name="Insulation">
		<std:node name="Pipe_Tube">
			<std:node name="GraphicRepresentation">
				<std:node name="Type">
					<std:enumval name="PipInsulationGraphicRepresentation">DoubleLine</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="2DdetailOnExtremities">
					<std:node name="Generation">
						<std:enumval name="YesNo">No</std:enumval>
					</std:node>
					<std:node name="Catalog_Chapter Name">
						<std:strval></std:strval>
					</std:node>
					<std:node name="Name">
						<std:strval></std:strval>
					</std:node>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="Piping Tubing Part">
			<std:node name="GraphicRepresentation">
				<std:node name="Type">
					<std:enumval name="PipPartInsuGraphicRepresentation">3Dprojection</std:enumval>
				</std:node>
				<std:node name="LineType">
					<std:intval>1</std:intval>
				</std:node>
				<std:node name="LineThickness">
					<std:intval>1</std:intval>
				</std:node>
			</std:node>
		</std:node>
		<std:node name="TextTemplate">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="Catalog_Chapter Name">
				<std:strval></std:strval>
			</std:node>
			<std:node name="TextTemplateName">
				<std:strval></std:strval>
			</std:node>
			</std:node>  
		</std:node>
	</std:node>
  <std:node name="Spool">
	<std:node name="FabricationBreakSymbol">
		<std:node name="Generation">
			<std:enumval name="YesNo">No</std:enumval>
		</std:node>
		<std:node name="Catalog_Chapter Name">
			<std:strval></std:strval>
		</std:node>
		<std:node name="Name">
			<std:strval></std:strval>
		</std:node>
    </std:node>
	<std:node name="TextTemplate">
	  <std:node name="Generation">
	    <std:enumval name="YesNo">No</std:enumval>
	  </std:node>
	  <std:node name="Catalog_Chapter Name">
		<std:strval></std:strval>
	  </std:node>
	  <std:node name="TextTemplateName">
		<std:strval></std:strval>
	  </std:node>
	</std:node>  
  </std:node>
  </std:node>
  
<!-- ******************************************************************* -->
<!-- * END APPLICATION - Piping And Tubing Design * -->
<!-- ******************************************************************* -->

<!-- ******************************************************************** -->
<!-- * BEGIN APPLICATION - HVAC Design * -->
<!-- ******************************************************************** -->

<std:node name="HVACDesign">
  <std:node name="GR_0">
    <std:node name="Min_EquivalentDiameter">
      <std:strval>0in</std:strval>
    </std:node>
    <std:node name="Max_EquivalentDiameter">
      <std:strval>2in</std:strval>
    </std:node>
    <std:node name="HVACPart">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:enumval name="HVACGraphicReplacement">3Dprojection</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="Name">
          <std:strval></std:strval>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="HVACRigidDuct">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="HVACGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="AxisLine">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ExtensionLength">
            <std:floatval>1.0</std:floatval>
          </std:node>
        </std:node>
        <std:node name="RigidBranchPort">
            <std:node name="Display">
               <std:enumval name="YesNo">No</std:enumval>
            </std:node>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
			<std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
            </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>4</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="HVACFlexibleDuct">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="HVACGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>4</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="Insulation">
      <std:node name="HVACDuct">
        <std:node name="GraphicRepresentation">
          <std:node name="Type">
            <std:enumval name="HVACInsulationGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="2DdetailOnExtremities">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="Catalog_Chapter Name">
              <std:strval></std:strval>
            </std:node>
            <std:node name="Name">
              <std:strval></std:strval>
            </std:node>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="HVACPart">
        <std:node name="GraphicRepresentation">
          <std:node name="Type">
            <std:enumval name="HVACPartInsuGraphicRepresentation">3Dprojection</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
  <std:node name="GR_1">
    <std:node name="Min_EquivalentDiameter">
      <std:strval>2in</std:strval>
    </std:node>
    <std:node name="Max_EquivalentDiameter">
      <std:strval>4in</std:strval>
    </std:node>
    <std:node name="HVACPart">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:enumval name="HVACGraphicReplacement">3Dprojection</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="Name">
          <std:strval></std:strval>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="HVACRigidDuct">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="HVACGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="AxisLine">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ExtensionLength">
            <std:floatval>1.0</std:floatval>
          </std:node>
        </std:node>
          <std:node name="RigidBranchPort">
          <std:node name="Display">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
			<std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
            </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="HVACFlexibleDuct">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="HVACGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="Insulation">
      <std:node name="HVACDuct">
        <std:node name="GraphicRepresentation">
          <std:node name="Type">
            <std:enumval name="HVACInsulationGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="2DdetailOnExtremities">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="Catalog_Chapter Name">
              <std:strval></std:strval>
            </std:node>
            <std:node name="Name">
              <std:strval></std:strval>
            </std:node>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="HVACPart">
        <std:node name="GraphicRepresentation">
          <std:node name="Type">
            <std:enumval name="HVACPartInsuGraphicRepresentation">3Dprojection</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
  <std:node name="GR_2">
    <std:node name="Min_EquivalentDiameter">
      <std:strval>4in</std:strval>
    </std:node>
    <std:node name="Max_EquivalentDiameter">
      <std:strval></std:strval>
    </std:node>
    <std:node name="HVACPart">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:enumval name="HVACGraphicReplacement">3Dprojection</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="Name">
          <std:strval></std:strval>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="HVACRigidDuct">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="HVACGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="AxisLine">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ExtensionLength">
            <std:floatval>1.0</std:floatval>
          </std:node>
        </std:node>
          <std:node name="RigidBranchPort">
          <std:node name="Display">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
			<std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
            </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
              <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="HVACFlexibleDuct">
      <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="HVACGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>4</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
    <std:node name="Insulation">
      <std:node name="HVACDuct">
        <std:node name="GraphicRepresentation">
          <std:node name="Type">
            <std:enumval name="HVACInsulationGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="2DdetailOnExtremities">
            <std:node name="Generation">
              <std:enumval name="YesNo">No</std:enumval>
            </std:node>
            <std:node name="Catalog_Chapter Name">
              <std:strval></std:strval>
            </std:node>
            <std:node name="Name">
              <std:strval></std:strval>
            </std:node>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="HVACPart">
        <std:node name="GraphicRepresentation">
          <std:node name="Type">
            <std:enumval name="HVACPartInsuGraphicRepresentation">3Dprojection</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
  <std:node name="Spool">
    <std:node name="FabricationBreakSymbol">
      <std:node name="Generation">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Catalog_Chapter Name">
        <std:strval></std:strval>
      </std:node>
      <std:node name="Name">
        <std:strval></std:strval>
      </std:node>
    </std:node>
    <std:node name="TextTemplate">
      <std:node name="Generation">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Catalog_Chapter Name">
        <std:strval></std:strval>
      </std:node>
      <std:node name="TextTemplateName">
        <std:strval></std:strval>
      </std:node>
    </std:node>
  </std:node>
</std:node>

<!-- ******************************************************************* -->
<!-- * END APPLICATION - HVAC Design * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************** -->
<!-- * BEGIN APPLICATION - RaceWay Design * -->
<!-- ******************************************************************** -->

<std:node name="Raceway Design">
  <std:node name="Raceway Part">
    <std:node name="GraphicRepresentation">
      <std:node name="Type">
        <std:enumval name="RCWGraphicReplacement">3Dprojection</std:enumval>
      </std:node>
      <std:node name="Catalog_Chapter Name">
        <std:strval></std:strval>
      </std:node>
      <std:node name="Name">
        <std:strval></std:strval>
      </std:node>
    </std:node>
    <std:node name="TextTemplate">
      <std:node name="Generation">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Catalog_Chapter Name">
        <std:strval></std:strval>
      </std:node>
      <std:node name="TextTemplateName">
        <std:strval></std:strval>
      </std:node>
    </std:node>
  </std:node>
  <std:node name="Straight Raceway">
    <std:node name="GraphicRepresentation">
        <std:node name="Type">
          <std:node name="Representation">
            <std:enumval name="RCWTrayGraphicRepresentation">DoubleLine</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>1</std:intval>
          </std:node>
          <std:node name="LineThickness">
            <std:intval>1</std:intval>
          </std:node>
        </std:node>
        <std:node name="Color">
          <std:colorval>0 0 0</std:colorval>
        </std:node>
        <std:node name="AxisLine">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="ExtensionLength">
            <std:floatval>1.0</std:floatval>
          </std:node>
        </std:node>
        <std:node name="RigidBranchPort">
          <std:node name="Display">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>
        <std:node name="CornerBendPoint">
          <std:node name="Display">
            <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="Numbering">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
		  <std:node name="EndPoint">
			  <std:enumval name="YesNo">No</std:enumval>
            </std:node>
        </std:node>
        <std:node name="CenterCurve">
          <std:node name="Display">
            <std:enumval name="YesNoStandard">Standard</std:enumval>
          </std:node>
          <std:node name="LineType">
            <std:intval>4</std:intval>
          </std:node>
        </std:node>
        <std:node name="EndStyleSymbol">
          <std:node name="Generation">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
          <std:node name="Catalog_Chapter Name">
            <std:strval></std:strval>
          </std:node>
          <std:node name="Name">
            <std:strval></std:strval>
          </std:node>
        </std:node>
      </std:node>
      <std:node name="TextTemplate">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="Catalog_Chapter Name">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
      </std:node>
    </std:node>
  <std:node name="Spool">
    <std:node name="FabricationBreakSymbol">
      <std:node name="Generation">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Catalog_Chapter Name">
        <std:strval></std:strval>
      </std:node>
      <std:node name="Name">
        <std:strval></std:strval>
      </std:node>
    </std:node>
    <std:node name="TextTemplate">
      <std:node name="Generation">
        <std:enumval name="YesNo">No</std:enumval>
      </std:node>
      <std:node name="Catalog_Chapter Name">
        <std:strval></std:strval>
      </std:node>
      <std:node name="TextTemplateName">
        <std:strval></std:strval>
      </std:node>
    </std:node>
  </std:node>
</std:node>

<!-- ******************************************************************* -->
<!-- * END APPLICATION - Raceway Design * -->
<!-- ******************************************************************* -->
<!-- ******************************************************************** -->
<!-- * BEGIN APPLICATION - Equipment And Systems Design        * -->
<!-- ******************************************************************** -->
  
<std:node name="EquipmentAndSystems">
	<std:node name="Equipment">
		<std:node name="Representation">
			<std:node name="Type">
				<std:enumval name="PipGraphicReplacement">3Dprojection</std:enumval>
			</std:node>
			<std:node name="2DDetailOrientation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="CatalogName">
				<std:strval></std:strval>
			</std:node>
			<std:node name="Name">
				<std:strval></std:strval>
			</std:node>
		</std:node>
		<std:node name="CenterOfGravitySymbol">
			<std:node name="Generation">
				<std:enumval name="YesNo">No</std:enumval>
			</std:node>
			<std:node name="CatalogName">
				<std:strval></std:strval>
			</std:node>
			<std:node name="Name">
				<std:strval></std:strval>
			</std:node>
		</std:node>
    <std:node name="InformationTable">
      <std:node name="Header">
        <std:node name="Generation">
          <std:enumval name="YesNo">No</std:enumval>
        </std:node>
        <std:node name="CatalogName">
          <std:strval></std:strval>
        </std:node>
        <std:node name="TextTemplateName">
          <std:strval></std:strval>
        </std:node>
            <std:node name="TextTemplateAlignment">
              <std:enumval name="ElecAlignment">Left</std:enumval>
            </std:node>
      </std:node>

      <std:node name="ConnectorTable">

        <!-- *        New Node (Properties)     * -->
        <std:node name="Properties">
          <std:node name="Generation">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>
          <!-- *         Node Modification(GenerateHeader)     * -->
          <std:node name="GenerateHeader">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
      
          <!-- *         New Node (TableSplit)     * -->
          <std:node name="TableSplit">
            <std:intval>10</std:intval>
          </std:node>

          <std:node name="SpaceBetweenTwoSplit">
            <std:intval>10</std:intval>
          </std:node>

          <std:node name="CellMargin">
            <std:intval>10</std:intval>
          </std:node>

          <std:node name="DisplayUnit">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>

          <std:node name="Sorting">
            <std:enumval name="ElecSorting">Ascending</std:enumval>
          </std:node>

          <std:node name="DisplayEmptyCavity">
            <std:enumval name="YesNo">Yes</std:enumval>
          </std:node>

          <std:node name="MergeDuplicateCavity">
            <std:enumval name="YesNo">No</std:enumval>
          </std:node>
        </std:node>

        <std:node name="AttributeOrder">
          <std:node name="Column1">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column2">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column3">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column4">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column5">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column6">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column7">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column8">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column9">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column10">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column11">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column12">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column13">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column14">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column15">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column16">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column17">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column18">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column19">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column20">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column21">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column22">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
          <std:node name="Column23">
            <std:enumval name="ElecConnectorAttributes">NotDefine</std:enumval>
          </std:node>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
	<std:node name="Support">
         <std:node name="Representation">
            <std:node name="Type">
               <std:enumval name="ElecGraphicReplacementSupport">3DprojectionAnd2Ddetail</std:enumval>
            </std:node>
            <std:node name="CatalogName">
               <std:strval></std:strval>
            </std:node>
            <std:node name="SectionOfSupport">
               <std:node name="Generation">
                  <std:enumval name="YesNo">Yes</std:enumval>
               </std:node>
               <std:node name="Numbering">
                  <std:node name="UseCommonDitto">
                     <std:enumval name="YesNo">Yes</std:enumval>
                  </std:node>
                  <std:node name="PrefixOnSectionName">
                     <std:strval>Section</std:strval>
                  </std:node>
               </std:node>
               <std:node name="Layout">
                  <std:node name="Originposition">
                     <std:node name="X">
                        <std:floatval>-400</std:floatval>
                     </std:node>
                     <std:node name="Y">
                        <std:floatval>-400</std:floatval>
                     </std:node>
                  </std:node>
                  <std:node name="Gridsize">
                     <std:node name="X_Step">
                        <std:floatval>-40</std:floatval>
                     </std:node>
                     <std:node name="Y_Step">
                        <std:floatval>-40</std:floatval>
                     </std:node>
                  </std:node>
                  <std:node name="NumberOfSectionsOnX">
                     <std:intval>10</std:intval>
                  </std:node>
               </std:node>
            </std:node>
         </std:node>
            <std:node name="Text">
               <std:node name="Generation">
                  <std:enumval name="YesNo">No</std:enumval>
               </std:node>
               <std:node name="CatalogName">
                  <std:strval></std:strval>
               </std:node>
               <std:node name="TextTemplateName">
                  <std:strval></std:strval>
               </std:node>
            </std:node>
      </std:node>
	</std:node>

<!-- ******************************************************************* -->
<!-- * END APPLICATION - Equipment And Systems Design * -->
<!-- ******************************************************************* -->

<!-- ******************************************************************* -->
<!-- *         START APPLICATION - 2D Layout For 3D Design             * -->
<!-- ******************************************************************* -->
  <std:node name = "2DLayoutFor3DDesign">
    <std:node name = "Layout">
      <std:node name = "Sheet">
        <std:node name = "View">
          <std:node name = "Extract2DContent">
            <std:enumval name = "YesNo">No</std:enumval>
          </std:node>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
<!-- ******************************************************************* -->
<!-- *         END APPLICATION - 2D Layout For 3D Design               * -->
<!-- ******************************************************************* -->

<!-- ******************************************************************* -->
<!-- *         START APPLICATION - BuildingStructures                  * -->
<!-- ******************************************************************* -->
  <std:node name = "BuildingStructures">
    <std:node name = "ViewMode">
      <std:enumval name="Building_ViewMode">Architectural</std:enumval>
    </std:node>
    <std:node name = "StructuralView">
      <std:node name = "EndOffset">
        <std:floatval>0</std:floatval>
      </std:node>
      <std:node name = "BraceOffset">
        <std:floatval>0</std:floatval>
      </std:node>
      <std:node name = "TextProperties">
        <std:node name = "FontName">
          <std:strval>Arial</std:strval>
        </std:node>
        <std:node name = "FontSize">
          <std:intval>10</std:intval>
        </std:node>
      </std:node>
    </std:node>
  </std:node>
<!-- ******************************************************************* -->
<!-- *         END APPLICATION - BuildingStructures                    * -->
<!-- ******************************************************************* -->

</std:node>
